A robot lawnmower includes a body and a drive system carried by the body and configured to maneuver the robot across a lawn. The robot also includes a grass cutter and a swath edge detector, both carried by the body. The swath edge detector is configured to detect a swath edge between cut and uncut grass while the drive system maneuvers the robot across the lawn while following a detected swath edge. The swath edge detector includes a calibrator that monitors uncut grass for calibration of the swath edge detector. In some examples, the calibrator comprises a second swath edge detector.
A self-service, fully-automatic kiosk for duplicating keys includes a kiosk housing having a customer interface for receiving payment from a customer for the purchase of at least one duplicate of the customer's key. A key analysis system within the housing analyzes the blade of a key inserted in the key-receiving entry to determine whether the inserted key matches one of a group of preselected key types and, if so, which preselected key type is matched. A key blank extraction system extracts from a magazine within the kiosk a key blank for the preselected key type matched by the blade of the key inserted in the key-receiving entry. Then a key duplicating system within the kiosk replicates the tooth pattern of the blade of the key inserted in the key-receiving entry, on the blade of the extracted key blank. The kiosk includes a processor coupled to sensors and controllable devices within the kiosk and to a communications port for communicating with a remote central server. The processor displays multiple available manual commands in response to an input signal requesting such a display, and, in response to manual selection of the commands, produces signals that energize and de-energize selected devices within the kiosk, thereby permitting remote manual control of the devices and mechanisms associated with those devices. The processor also transmits signals from a video camera within the kiosk, and signals representing the status of multiple devices within the kiosk.
Automated positioning and alignment methods and systems for aircraft structures use anthropomorphous robots with six degrees of freedom to carry the aero structure parts during the positioning and alignment. The parts and structures (if any) supporting the parts are treated as robot tools.
In various embodiments, a media player or portable media device can enable a user to navigate and discover content or other media assets. The media player may analyze broadcasts and other content streams to determine currently playing and forthcoming content. The media player may switch from one source of content to another to find content that matches user preferences or criteria. The media player may generate playlists based on the matching content, and switch between sources of the matching content automatically. In some embodiments, the media player may receive user input to browse content using a navigation stream. Content associated with stations within the navigation stream may be output. As if the user were tuning a radio dial, the media player may determine what content to played back for each station. The media player may procure content and generate playlists to represent each station focus on by the user.
A device, a remote control unit and method for controlling a plurality of devices, the method including receiving one of a plurality of user commands as an input; and transmitting one of a first and a second of the plurality of control commands in response to the one of the plurality of user commands. The first of the plurality of control commands includes information for simultaneously controlling a first device of a manufacturer and a second device of the manufacturer. The second of the plurality of control commands includes information for controlling the first device without controlling the second device.
Leads having directional electrodes thereon. Also provided are leads having directional electrodes as well as anchoring prongs to secure the electrodes to the leads. Also provided are leads with directional electrodes where all the electrodes have the same surface area. Methods of treating conditions and selectively stimulating regions of the brain such as the thalamus and cerebellum are also provided.
Medical device recharging systems include a controller and a separate recharge device that communicate wirelessly together to provide recharging to an implantable medical device. Either the controller or the recharge device may also communicate wirelessly with the implantable medical device to obtain recharge status and other information. There may be multiple recharge devices present within communication range of the controller, and the controller may determine which recharge device to activate depending upon proximity of each recharge device to the implantable medical device. The controller may allow the recharge device that is active at any given time to change so that the patient having the implantable medical device can move about in the area where the recharge devices are located while recharging continues.
An apparatus includes: an input configured to receive information indicative of sensed light locations; memory coupled to the input and storing indicia of receptive fields forming a mosaic, each of the receptive fields corresponding to an electrode, the mosaic including first and receptive fields having first and second shapes that are different, the memory further storing instructions; a processor coupled to the input and the memory and configured to read and execute the instructions to: analyze the information indicative of sensed light locations; determine, for each of respective ones of the sensed light locations, one or more receptive fields that include the corresponding sensed light location; and produce excitation indicia; the apparatus further including an output coupled to the processor and configured to be coupled to a retinal implant and to convey the excitation indicia toward the retinal implant.
A medical implant, comprising: a hermetically sealed housing; and a hermeticity failure sensor configured to detect a failure in the hermeticity of the housing, and, following a failure detection, trigger one or more additional operations.
An implantable cardiac rhythm/function management system integrates cardiac contractility modulation (CCM) and one or more other therapies, such as to preserve device safety, improve efficacy, enhance sensing and detection, or enhance therapy effectiveness and delivery. Examples of the one or more other therapies can include pacing, defibrillation/cardioversion, cardiac resynchronization therapy (CRT), or neurostimulation.
A magnetic arrangement is described for an implantable system for a recipient patient. A planar coil housing contains a signal coil for transcutaneous communication of an implant communication signal. A first attachment magnet is located within the plane of the coil housing and rotatable therein, and has a magnetic dipole parallel to the plane of the coil housing for transcutaneous magnetic interaction with a corresponding second attachment magnet.
An implantable medical device (IMD), such as an implantable pacemaker, cardioverter, or diagnostic device, generates an EGM signal, e.g., a far field EGM signal, samples the EGM signal to obtain a single T-wave amplitude value for each T-wave over a plurality of beats, and stores the T-wave amplitude values in memory. The IMD creates a time series of the T-wave amplitude values stored in memory, calculates the power spectral density for the times series, and selects a power spectral density of a particular frequency, e.g., 0.5 cycles per beat, as the TWA value. The IMD may periodically determine TWA values for the patient and store the values in memory. The TWA values may be presented to medical personnel, e.g., as a trend. The IMD may deliver or modify therapy, or provide an alert, based on the TWA values.
A noise-suppressing electrocardiograph (ECG) adapter having a first end, a second end, and a noise-suppression element is presented, together with an ECG noise-suppressing system and related methods. In an embodiment, the noise-suppressing ECG adapter includes a housing having at least one first connector disposed at a first end of the housing adapted to electrically couple with an ECG lead set, and at least one second connector adapted for coupling to an input of an ECG device. The adapter includes a noise suppression element. The noise suppression element includes a ferromagnetic element having an opening defined therein. In an embodiment the noise suppression element is internal to the adapter. In another embodiment, the noise suppression element is tethered externally to the adapter and configured to clamp around at least a portion of an ECG leadwire.
A method of compensating for breathing and other motions of a patient during treatment includes periodically generating internal positional data about an internal target region. The method further includes continuously generating external positional data about external motion of the patient's body using an external sensor and generating a correlation model between the position of the internal target region and the external sensor using the external positional data of the external sensor and the internal positional data of the internal target region. The method further includes predicting the position of the internal target region at some later time based on the correlation model.
The invention relates to a protective frame for a mobile communication device having a power charging port. The protective frame has a retractable frame body, including a main frame body; a sliding element for reciprocatingly sliding along a direction with respect to the main frame body between a retracted protection position where the mobile communication device is fixedly framed by the retractable frame body and a stretched auxiliary power supply position; and a fastening element for fixing the sliding element with respect to the main frame body at the retracted protection position and the stretched auxiliary power supply position. The protective frame also includes an auxiliary battery adapted for being detachably installed in the retractable frame body and electrically connected to the power charging port of the mobile communication device, when the sliding element are fixed with respect to the main frame body at the stretched auxiliary power supply position.
Certain embodiments of the present disclosure allow a mobile station to activate a sleep mode in order to reduce power consumption when the residual battery capacity is low. Certain embodiments of the present disclosure also provide techniques for adaptive power saving applied during an idle mode operation.
Mechanisms for modifying a notification mode for notifying a user of an incoming communication is provided. In a first communication device, an incoming communication from a second communication device is received. A total number of received incoming communications from the second communication device within a predetermined period of time is determined and compared to a first threshold. In response to the total number of received incoming communications from the second communication device within the predetermined period of time meeting or exceeding the first predetermined threshold, a notification mode of the first communication device is modified to be different from a current default notification mode of the first communication device for incoming communications from the second communication device. A notification of the incoming communication from the second communication device is generated using the modified notification mode of the first communication device.
Location-based display characteristics in a user interface are described. In an implementation, a determination is made by mobile communications device that icon is to be displayed at a particular location in the user interface. A display characteristic is applied by the mobile communications device that is defined for the particular location such that a display of the icon is changed. The icon is displayed having an applied display characteristic on the display device of the mobile communications device at the particular location in the user interface.
Methods and apparatus related to the sharing of wide area network (WAN) uplink bandwidth with peer to peer communication signaling usage are described. A multi-mode wireless communications device supporting both WAN communications and peer to peer communications includes: a transmitter chain for generating signals having a first RF frequency, a first receiver chain for processing received signals having a second RF frequency, and a second receiver chain for processing signals having the first RF frequency. This design is particularly advantageous in a communications system where a WAN frequency division duplex uplink band is shared with time division duplex (TDD) peer to peer communications signaling. The wireless terminal sets the transmitter chain and the second receiver chain to the FDD uplink band and sets the first receiver chain to the FDD downlink band. This design accommodates rapid mode switching between the two modes of operation and reuses hardware where possible.
An apparatus and method for transmitting and receiving a signal and a subcarrier allocation structure therefor in a multi-user multi-antenna communication system are provided, in which a transmitter calculates receive filters for each of a plurality of receivers or for a plurality of antennas in a receiver, determines the index of a vector having a correlation with the calculated receive filters in a preset codebook vector to be a receive filter index, and transmits the receive filter index to the receiver.
A messaging method using a mobile user terminal, the method including: creating, at the mobile user terminal, at least one graphical messaging symbol adapted to convey a meaning to a message recipient; preparing message content including at least one of the created graphical messaging symbols using the mobile terminal; and sending the message to a recipient via a communication network.
A method is disclosed for updating an availability indicator of a user associated with a communications device. The method includes receiving a first location signal from a mobile device indicative of the location of the user and determining the user's position relative to the communications device based on the location signal. The availability indicator is updated to one of a first state or a second state based on the user's determined position. In one embodiment, the first state indicates that the user is available at the communications device, and the second state indicates that the user is away from the communications device.
A method of determining location of a mobile device including estimating an absolute location using long range communication estimates, estimating a relative location based on shorter-range communications, receiving location information from a plurality of peer entities, and refining the absolute location and based on the received location information.
Examples disclosed herein may relate to transmitting almanac information associated with a subset of wireless transmitters to a mobile station. The subset of wireless transmitters may be determined, at least in part, by determining expected contributions of one or more wireless transmitters to a future navigation operation for the mobile station.
The invention relates to the setting up of a connection between an originating terminal and a terminating terminal. Both terminals may connect via the same access network. The access network accesses a core network through an access gateway. The access gateway transmits and/or receives connection set-up signalling transmitted along a signalling path through at least the core network. Using an information element in the connection set-up signalling, information on media plane access needs of nodes in the signalling path is collected and provided for determining whether a local shortcut of a media path can be established in the access network.
Embodiments of the present invention disclose an information processing method. A first base station receives a handover request message from a second base station. The first base station determines whether the handover request message is an initial handover request message directly sent by a source base station in a handover process or a forwarded handover request message. If a judging result is that the handover request message is the forwarded handover request message, the first base station saves a user equipment, context in the handover request message so as to become a prepared base station of the UE.
A method and apparatus are disclosed that identify a motor vehicle operation and whether a driver is operating a mobile device. One example of operation may include a method that includes receiving vehicle data based on active operation of a vehicle and compiling a candidate driver identification profile (DIP) based on the received vehicle data. The method may also include comparing the candidate DIP to a pre-stored DIP and determining a match between the candidate DIP and the pre-stored DIP. The method may also include applying a restriction to a mobile station operated by a driver of the vehicle responsive to the match determination.
A device and computer-readable medium are disclosed. The device comprises one or more modems for enabling the device to communicate over one or more wireless access networks, including a particular wireless access network, and one or more service processors configured to execute one or more instructions that cause the one or more processors to: based on a criterion, establish communication with one or more network elements available to the device, the one or more network elements associated with one or more service providers, including a particular service provider, the criterion comprising an association of at least an aspect of a credential of the device with the particular service provider or a user selection indicating the particular service provider; and update the device to include a branding, the branding for providing a user interface characteristic that is specific to the particular service provider.
A method and system of the present invention delivers a voice mail notification to a subscriber of a voice mail system to indicate that a voice mail message is waiting in the subscriber mailbox. The voice mail system cellular phone network. The voice mail notification typically includes the calling party number and the name of the calling party if available, and an index. This is forwarded through the cellular phone network to the subscriber to indicate that a voice mail message is waiting in a subscriber mailbox. Subscribers can retrieve a specific message from the Voice Mail System.
Device assisted CDR creation, aggregation, mediation and billing is provided. In some embodiments, device assisted CDR creation, aggregation, mediation and billing for a wireless network includes collecting device generated service usage information for one or more devices in wireless communication on the wireless network; and providing the device generated service usage information in a syntax (e.g., a device assisted charging data record (CDR)) and a communication protocol (e.g., 3GPP, 3GPP2, or other communication protocols) that can be used by other network devices to augment or replace network generated service usage information for the one or more devices in wireless communication on the wireless network.
Provision of gigabit-rate data transmission over wireless radio links, using carrier frequencies in the millimeter-wave range (>30 GHz). More specifically, a circuit for detection of amplitude-shift keyed (ASK) or other amplitude modulations (AM) which can be easily incorporated into an integrated circuit receiver system is described, making the receiver capable of supporting both complex IQ modulation schemes and simpler, non-coherent on-off or multiple-level keying signals. Several novel radio architectures are also described which, with the addition of a frequency discriminator network, have the capability of handling frequency shift keyed (FSK) or other frequency modulations (FM), as well as AM and complex IQ modulation schemes. These radio architectures support this wide variety of modulations by efficiently sharing detector hardware components. Disclosed herein are architecture for supporting both quadrature down-conversion and ASK/AM, ASK/AM detector circuit details, AM-FM detector architecture, and an AM-FM/IQ demodulator system and FSK/FM detector circuit details.
A wireless device with power combining power amplifiers to support transmission on multiple antennas is disclosed. The power amplifiers may be operated together to obtain higher output power or separately to support transmission on multiple antennas. In an exemplary design, an apparatus includes first and second power amplifiers. The first power amplifier amplifies a first input signal and provides a first output signal for a first antenna in a first operating mode (e.g., a MIMO mode or a transmit diversity mode). The second power amplifier amplifies the first input signal or a second input signal and provides a second output signal for a second antenna in the first operating mode. The first and second power amplifiers are power combined in a second operating mode to provide a third output signal, which has a higher maximum output power than the first or second output signal.
A method of transmitting telecommunications data comprising modulating a first and a second data signal, transmitting the signals to a remote receiver, the first data signal transmitted from a first terminal and the second data signal transmitted from a second terminal, transmitting, by the remote receiver, the first signal to the second terminal and the second signal to the first terminal, measuring a received signal-to-noise ratio of the first signal received at the second terminal and a received signal-to-noise ratio of the second signal received at the first terminal, and changing a transmit power of at least one of the terminals such that a margin between the signal-to-noise ratio of the first signal and a margin between the signal-to-noise ratio of the second signal is optimized, wherein the margin is equal to a difference between signal-to-noise ratio of a signal received at one terminal and a threshold signal-to-noise ratio.
A communication terminal includes a request unit, an illuminating unit, a detecting unit, a capturing unit, an analyzing unit, and a pairing unit. The request unit is used for generating a pairing signal when communication pairing function is enabled. The illuminating unit is used for generating predetermined light when communication pairing function is enabled. The detecting unit detects whether the pairing signal from another terminal has been received, and if it has, generates a signal to the capturing unit. The capturing unit is used for capturing an image of the light generated by the illuminating unit of the other terminal. The analyzing unit is used for analyzing the captured image. The pairing unit is used for completing the communication pairing with the other terminal when the captured image of the light includes a predetermined characteristic.
Disclosed is a pairing apparatus 100. When a pairing start request is received from a first terminal and a second terminal, in response to the request, one piece of identifier data, which is used for displaying identifiers on displays of said first terminal and said second terminal, is transmitted to the first terminal, and one or more pieces of the identifier data including the one piece of the identifier data transmitted to the first terminal are transmitted to the second terminal. Thereafter, when one identifier selected from one or more identifiers transmitted to the second terminal is received from the second terminal, it is determined whether or not the identifier received from the second terminal is identical to the one identifier transmitted to the first terminal, and when the determination is yes, the first terminal and the second terminal are paired.
According to one embodiment, a method for use in managing satellite communications includes: receiving, at a first earth-based gateway antenna system, one or more microwave communication signals from a substantially geostationary satellite; monitoring for a performance change in at least one signal from the satellite; and, in response to detecting a performance change in the at least one signal, transmitting instructions to the satellite to transmit at least a portion of the one or more microwave communication signals to a second earth-based gateway antenna system.
In response to a predetermined user's instruction, predetermined post-processing is separated from a job adapted to cause a predetermined post-processor to perform the predetermined post-processing together with performance of print-processing.
An image forming apparatus 1 is provided with a double-side transport unit 80 capable of clearing a paper jam. The double-side transport unit 80 is provided with a reverse transport passage 75 provided with a reverse roller 57 for switching back paper P having an image formed on one side thereof, a return transport passage 76 for transporting the paper P turned upside down through the reverse transport passage 75 to an image forming portion 10, and a reverse introduction passage 74a extending from a downstream side, with respect to a branch transport passage 74, of the second transport roller 56 that is disposed close to the reverse transport passage 75, to the reverse transport passage 75. The double-side transport unit 80 can be taken out of or put in an apparatus main body 1a in a direction perpendicular to a paper transport direction.
A method and system for printing image documents using a variety of toners where some toners using a multi-development station having two or more development stations. These toners are co-printed prior to fixing, on the receiver by the multi-development station.
A cleaning unit includes: a cleaning member that cleans the surface of the image carrier; a cleaning container that stores developer removed by the cleaning member; a cleaning support that is formed by bending a plate and includes a cleaning-supporting portion supporting the other end portion of the cleaning member and a supported portion angled with respect to the cleaning-supporting portion by bending; a supporting-portion-of-support that includes a facing portion facing the supported portion, is provided at the cleaning container, and supports the cleaning support; a damping member that is disposed between the supported portion and the facing portion, is formed so as to be elastically deformable, and regulates vibration of the cleaning member; and a securing member that secures the cleaning support to the supporting-portion-of-support at a position adjacent to the damping member.
A control apparatus configured to control an image forming system, in forming a transparent image so as to cover color images fixed on a sheet, applies a transparent toner on an area on which an image can be formed and which is other than an area that a user desires to increase the glossiness thereof.
An image forming apparatus includes a transparent image forming device for forming a transparent toner image on a sheet with a transparent toner in an amount per unit area; a manual selector for selecting an image area in which the transparent toner image is to be formed and for selecting the amount per unit area; a heating device for heating the transparent toner image formed on the sheet; a glossing device for processing the transparent toner image formed on the sheet so that glossiness is higher than that by the heating device; a mode selector for selecting a first mode in which the glossing device is not used and a second mode in which the glossing device is used; and a controlling device for controlling the amount per unit area of the transparent toner in the image area so as to be not less than a predetermined amount in the second mode.
A drive gear for a generally cylindrical imaging component. The drive gear includes a body for engaging the generally cylindrical imaging component; a cylindrical shaft attached to the body, the cylindrical shaft having an end surface; and three prongs extending longitudinally outward from the end surface.
A photosensitive drum cartridge and an image forming apparatus including the photosensitive drum cartridge are provided. The photosensitive drum cartridge includes: a photosensitive drum; a primary cleaning roller which is configured to contact a surface of the photosensitive drum to remove an attached matter on the surface of the photosensitive drum; a first gear which is configured to rotate together with the photosensitive drum; a second gear which is configured to rotate together with the primary cleaning roller; and a third gear which is configured to mesh with the first gear and the second gear, and which has a rotation axis, a position of which is fixed such that a distance from a rotation axis of the first gear is constant.
Airflow management systems for a charger support area having a charger housing supporting a corona charger that is proximate to a primary imaging member are provided. In one embodiment an air flow management system has an air supply providing flow of air proximate an inlet side of the charger housing area and a deflection surface positioned to deflect the flow of air from a first direction to a second direction leading to an impact surface against which the flow of air is disbursed. The impact surface is outside of the width of the charger housing and the primary imaging member so that the air flow can supply a volume of disbursed air into the charger housing area that is sufficient to create a pressure that causes the disbursed air to move to an outlet on an opposite side of the area without exposing the charger or the primary imaging member to the flow.
A high-voltage power supply to output a plus/minus high-voltage, which is applied to image forming apparatuses, includes a plus high-voltage output unit outputting the plus high-voltage by using a Pulse Width Modulation (PWM) signal, a minus high-voltage operation control unit charging a certain voltage while the plus high-voltage output unit is outputting the plus high-voltage, a minus high-voltage output unit outputting the minus high-voltage by using the certain voltage charged in the minus high-voltage operation control unit, and a minus high-voltage blocking unit to block the output of the minus high-voltage from the minus high-voltage output unit while the plus high-voltage output unit is outputting the plus high-voltage.
In a coherent optical receiver, sufficient demodulation becomes impossible and consequently receiving performance deteriorates if an interchannel skew arises, therefore, a coherent optical receiver according to an exemplary aspect of the invention includes a local light source; a 90-degree hybrid circuit; an optoelectronic converter; an analog-to-digital converter; and a digital signal processing unit, wherein the 90-degree hybrid circuit makes multiplexed signal light interfere with local light from the local light source, and outputs a plurality of optical signals separated into a plurality of signal components; the optoelectronic converter detects the optical signals and outputs detected electrical signals; the analog-to-digital converter quantizes the detected electrical signals and outputs quantized signals; and the digital signal processing unit includes a skew compensation unit for compensating a difference in propagation delay between the plurality of signal components, and a demodulation unit for demodulating the quantized signals.
Digital timing error detection systems and techniques are described. The described techniques are independent of polarization and differential-group-delay and are used to perform timing recovery of polarization-multiplexed coherent optical systems.
A transmitting apparatus using visible light communication generates a light source control signal from color information representing additional information and transmits additional information with a color of light that is emitted by a light source by controlling an on/off time of a plurality of LEDs according to the light source control signal. Therefore, a user can intuitively know additional information from a color of light that is emitted by the light source.
The present embodiments relate to non-contact transmission of optical signals by an optical waveguide which is provided with a material of which the electron arrangement is able to be put into population inversion. In a first variant, energy is fed to the optical waveguide so that the electron arrangement is held in a state above its thermal equilibrium and below the population inversion, with optical signals being beamed into the optical waveguide with a wavelength exciting the electrons of the inversion material such that a local population inversion is created in a section of the optical waveguide, and subsequently light which is created by spontaneous emission is detected. In a second variant, a local population inversion is created by pump light, with simultaneously optical signals being beamed into the population-inverted section with the emission wavelength and by light created by stimulated emission being detected. In a third variant, light with emission wavelength is beamed into the optical waveguide, the optical signals beamed in with excitation wavelength and the light created by stimulated emission detected.
Methods and systems for relaying an optical signal from a remote control to a remote-controlled device such as a home entertainment device or a security device. Embodiments include at least one optical receiver and a plurality of optical transmitters. The optical transmitter positioned with an unobstructed line-of-sight to the home entertainment device is identified and the data encoded in the optical signal from the remote control is sent to that transmitter. A second optical signal that is substantially identical to the first is then generated at the optical transmitter and communicated to the home entertainment device.
A Distributed Denial of Service (DDoS) attack detection and defense apparatus and method are provided. The Distributed Denial of Service (DDoS) attack detection and defense apparatus includes: a flow information collection unit to collect, from one or more input packets with an IP address of an attack target system as a destination IP address, flow information including source IP addresses of the input packets and packet counts of one or more flows that are classified for each of the source IP addresses and each of different protocol types; an inspection unit to calculate packets per second (PPS) values of the flows based on the packet counts; and a response unit to determine a DDoS attack response method for each of the flows based on the PPS value and the protocol type of a corresponding flow and to process the corresponding flow using the determined DDoS attack response method.
A system and method for effectively performing a streamlined photo distribution procedure is disclosed. A source device initially captures a photographic image of a target or subject using known techniques. The term “photographic image” as used herein is not limited to single photographs but includes moving pictures, video images and any other known or future means of capturing an image of an event. The source device is likewise broadly defined and includes, but is not limited to, digital cameras, video cameras, cell phones with digital photo capture means, computers, including PDAs or other devices or combination of devices with communication and photo capture means, and other image capture means.
An aerosol generation system having an aerosol generator wherein a liquid formulation is at least partially volatilized in a capillary passage and discharged from the capillary passage to form an aerosol. The aerosol generation system includes a pumping unit adapted to supply a liquid formulation to the aerosol generator; and a fluidic element located between the pumping unit and the capillary passage of the aerosol generator, wherein the fluidic element increases backpressure of the liquid formulation as the liquid formulation enters the capillary passage of the aerosol generator.
The invention relates to a method for creating a new roundup of an audiovisual document previously recorded in a device. The document contains two parts, one being the roundup and the other composed of a plurality of reports. The roundup is itself divided into a plurality of parts. The device first searches for the associations between the roundup parts and the reports, and detects the reports that are not associated with roundup parts. Then, summaries are created for the reports not associated with the roundup, and incorporated into the initial roundup to create a new roundup. In this manner, the user can easily select any report from the roundup part associated with this report. The invention also relates to the receiver suitable for implementing the method.
Provided are a Blu-ray Disc (BD) playback system, a BD playback device, a display device, and a computer program which can report the status to the user during playback of BD content and can automatically provide an optimal user interface (UI). A BD playback device (110) is provided with an interactive content decision unit (113) for analyzing control data received from a disc reader (111) and determining whether a disc contains interactive content, and, if there is content, whether the interactive content should be played back. In addition, a display and operating device (120) is provided with an HMI control unit (123) for determining the status of the BD playback device (110) from the input from a communication unit (124) and displaying the appropriate HMI. The HMI control unit (123) controls the report to the user that interactive content exists when it has been determined that interactive content exists.
A multimedia file skipping method. The skipping method adds obtained increased amount of time to a current decoding time stamp to determine a target time stamp, determines a PCR (Program Clock Reference) corresponding to the target time stamp as a PCR prediction value; determines a position offset corresponding to the PCR prediction value as a target position offset according to a linear relationship between the PCR and position offset of the multimedia file; and skips to the target position offset and plays the multimedia file from this position. By the aforementioned, it is not necessary to set a time stamp index file, and calculation is performed by utilizing the linear relationship between the PCR and the position offset, and thus the amount of calculation is reduced, time cost is reduced, and skipping speed is significantly improved.
An digital data reproducing apparatus and a method for controlling the same are discussed. The method includes obtaining, by the digital data reproducing apparatus, emotion information associated with at least one of a user and a content, modifying at least one of audio and video characteristics of a content for reproduction based on at least the emotion information, and reproducing the content based on the modified at least one of audio and video characteristics of the content.
An information signal processing method is provided which is to be used for special playback operations to make summary (digest) playback of image/voice data signals of a broadcast program. The method includes the steps of detecting a voice level or predetermined voice characteristic of each predetermined section from a predetermined image/voice information signal or an image/voice information signal resulted from predetermined band compression of the predetermined image/voice information signal and processing the voice signal as a predetermined segment section correspondingly to the result of detection and a predetermined set value; extracting predetermined characteristic data of each section of an image signal from the image/voice information signal and generating predetermined characteristic data indicative of an image feature of the predetermined section from the characteristic data; segmenting the image/voice information signal correspondingly to the image characteristic data, a signal resulted from segmentation of the voice and a predetermined time length or section length setting data; and recording a predetermined voice characteristic signal extracted from the voice signal on the basis of a segment of the image/voice information signal and the image feature data into a predetermined recording medium or predetermined data memory.
A playback apparatus loaded with a data recording medium including image data includes a first determining unit configured to determine whether a user stopped playing back the image data, a storage control unit configured to control a storage process so that a first set of information indicating a position where the playback of the image data was stopped is stored when the first determining unit determines that the user stopped playback of the image data, and a display control unit configured to control a screen to display a list of thumbnail images with an icon superposed on a thumbnail image corresponding to the image data stopped on the basis of the first set of information when the first determining unit determines that the user stopped playback of the image data, the icon indicating that playback of the image data is resumed from the position where the playback of the image data was stopped.
A purpose of the present invention is to provide a video replay system and a control method thereof in which the video replay speed is automatically controlled based on the note-taking speed of each viewer. The video replay system of the present invention comprises storage means for storing the video data; video replay means for replaying a video by reading the stored video data out of the storage means and displaying the video data on the display; detection means for monitoring a predetermined viewing behavior of a viewer of the replayed video, and for detecting a parameter associated with the viewing behavior; and automatic controlling means for, in response to the parameter detected by the detection means, automatically controlling the speed at which the video is replayed by the video replay means.
An image recording/reproducing apparatus capable of achieving data transfer with ease. The recording area of a recording medium is divided into at least one sub area including multiple types of file systems for management. A sub area to be accessed to external device is determined among the at least one sub area. A file system to be accessed to the external device is determined among the multiple types of file systems. The determining of the file system is performed by selecting the file system to be accessed among the file systems included in the determined sub area.
A telecommunications module includes a main housing portion and a cover, the main housing portion defining a first sidewall, a front wall, a rear wall, a top wall, and a bottom wall, the cover defining a second sidewall when mounted on the main housing portion. An optical component located within the module receives an input signal from a signal input location of the housing and outputs an output signal toward a signal output location on the front wall. The telecommunications module is configured such that the signal input location can be selected to be either on the front wall or the rear wall of the main housing. The cover defines a protrusion extending from the second sidewall toward the main housing portion, the protrusion being selectively breakable to expose a recess on the front wall of the main housing portion that defines a signal input location.
An automatic optical coupling device that uses liquid to couple focused light into a light-guide is described. The liquid moves within a chamber or layer via the thermocapillary effect in order to automatically track and couple a moving spot of focused light. Also provided is the application of these coupling devices in an array feeding into a common light-guide, optical designs to improve the performance of these arrays, and the application of such arrays to light collection.
Some embodiments provide a method and system for efficiently transferring medical images. Some embodiments receive a medical image in a first platform dependent format of a Picture Archiving and Communication System (PACS). The first platform dependent format is one that is accessible by a first format compliant device that includes a library that specifies how to decode the first format. Some embodiments transform the medical image from the first format to a second format. The second format includes decoded content of the first format that is viewable on a first format non-compliant device. The transformed image is then passed to the device for viewing. Additionally, some embodiments efficiently transfer medical images by identifying image settings for one or more devices and by passing requested images that are optimized by resizing the images according to the image settings of the requesting device.
A computerized method of recognizing an input hand-drawn table formed by freeform line objects comprises transforming each freeform line object of the table into one of a vertical line segment and a horizontal line segment, generating a grid system based on the vertical and horizontal line segments and converting the generated grid system into a table object.
An embodiment of a system is proposed for imaging a body part including a tissue, the body part being perfused with a contrast agent. The system includes means for providing a sequence of original images offering a digital representation over time of the body-part, each original image including a plurality of original values each one indicative of a response to an interrogation signal of a corresponding location of the body-part possibly including the contrast agent with a contribution of the tissue substantially reduced. The system further includes means for generating an overlaid image for each one of a set of selected original images, for each one of a set of selected locations the overlaid image including an overlaid value consisting of a) a linearized value derived from the corresponding original value to be substantially proportional to a concentration of the contrast agent in the selected location when the linearized value reaches a predefined threshold, or otherwise b) a compressed value depending non-linearly on the corresponding response to the interrogation signal; and means for displaying the overlaid images in succession.
A computer-implemented method for automatically sharing media between users is provided. A first image is received depicting a scene with one or more persons. Face detection information is identified for each person in the first image. Identification information for each face detected is obtained without user intervention. The face detection information and the identification information are associated with the first image. The first image including the associated face detection information and identification information is sent to a server hosting a media sharing service. An access link to an event group is received. The event group includes an album of the first image and a first collection of images that share a set of common features with the first image.
The present invention provides a method for dynamically setting an environmental boundary in an image and a method for instantly determining human activity according to the method for dynamically setting the environmental boundary. The method for instantly determining human activity includes the steps of retrieving at least an initial environmental image with a predetermined angle, and calculating a boundary setting equation of an object and an environmental boundary in the initial environmental image; retrieving a dynamic environmental image having the object by using a movable platform, and figuring out a new environmental boundary; determining a human image in the dynamic environmental image, recording retention time of the human image, and determining a human posture; and determining human location according to the environmental boundary in the dynamic environmental image and the human image, and instantly determining the human activity.
A computerized system for displaying and making measurements based upon captured oblique images. The system includes a computer system executing image display and analysis software reading an oblique image having corresponding geo-location data and a data table storing ground plane data, the ground plane data comprising a plurality of facets within an area depicted within the oblique image, the facets having a plurality of elevation data that conforms to at least a portion of terrain depicted within the oblique image; wherein the computer system displays the oblique image, receives a starting point and an end point selected by the user, where one or both points may be above the terrain, and calculates a height difference between the starting and end points dependent upon the geo-location data and the elevation data of a facet of the ground plane data.
A method of image analysis, includes: obtaining a sequence (37;51) of images, each represented by pixel data; performing a vision-based analysis on at least one of the sequence (37;51) of images to obtain data for classifying a state of a subject represented in the images;—determining at least one value of a physiological parameter of a living being represented in at least some of the sequence (37;51) of images; and classifying a state of the subject using the data obtained with the vision-based analysis and the at least one value of the physiological parameter. The at least one value of the physiological parameter is determined through analysis of image data from the same sequence (37;51) of images from which the at least one image on which the vision-based analysis is performed is taken. A method of enabling remote photoplethysmographic analysis includes: obtaining a sequence (37;51) of images from at least one camera (3), each represented by pixel data representative of reflected ambient light in at least a limited range of wavelengths; and, for at least one measurement zone (41), providing a signal representative of at least variations in a time-varying value of a combination of pixel values at least a number of image points in the measurement zone (41) for use in determining at least one value of a physiological parameter. At least part of a selected subject represented in the sequence (37;51) of images is tracked, and a directable light source (4) illuminating at least part of the selected subject is controlled.
An acoustic conversion device includes: a driving unit including a pair of magnets, a yoke, a coil, a vibrating portion which vibrates when driving current is supplied to the coil, and an armature disposed between the pair of magnets with the vibrating portion being passed through the coil; and a diaphragm unit including a holding frame having an opening, a resin film adhered to the holding frame, a diaphragm held within the holding frame, and a beam portion for propagating the vibration of the vibrating portion to the diaphragm; with the beam portion being combined with one edge side of the diaphragm, a predetermined gap being formed between the other edge of the diaphragm, and the inner face of the holding frame, a reinforcing member being provided to the predetermined gap, and the diaphragm being combined with the holding frame by the resin film and the reinforcing member.
A pocket on the garment is configured to store an audio playback device. A device dock is associated with the pocket. The device dock includes an audio connector connectable to the audio playback device. A jack dock is on the garment. The jack dock includes a headphone jack configured to connect to a headphone. An elongated stretchable textile data/power bus is integrated with the garment between the device dock and the jack dock.
There is provided an earphone having a click unit for clicking on or to a housing of the earphone. The click unit has an ear pad and a fitment. The fitment has a first end and a second end, wherein the ear pad can be fitted on to the second end. The first end of the fitment has at least one spring element.
A hearing aid includes a housing for accommodation of a signal processor for processing an audio signal into a processed audio signal compensating a hearing loss, and a receiver that is connected to an output of the signal processor for converting the processed audio signal into a sound signal, wherein the housing is configured to be positioned in an ear canal of a user without obstructing the ear canal, thereby leaving a passageway between a part of an ear canal wall and a part of the housing so that sound waves can escape from behind the housing through the passageway to surroundings of the user, the housing having an output port for emission of sound towards an eardrum of the user when inserted in the ear canal, and wherein the housing is coupled to an elongate member, which is configured to be placed in a pinna and outside the ear canal of the user for retention of the housing in the ear canal.
A device for transmitting engine sound into an interior of a motor vehicle includes a sound transmission line having a first end in acoustic communication with an air intake tract and a second end arranged to direct engine sound towards the motor vehicle interior. A sound transmitting porous media is arranged in-line with said sound transmission line and restricts airflow wherein the porous media such that airflow in the sound transmission line is required to pass through said porous media.
Method and apparatus comprising a method of recording natural sounds with a matched microphone array, recording the signal on a high resolution recording device including creating an audio bed, and playing back the recording on a tuned playback system. The method and apparatus is used to create or duplicate an ambient sound space for ambient therapy.
In an acoustic control system an operation range of an active type noise control device (an ANC device) and an operation range of an active type effect sound control device (an ASC device) are exchanged in accordance with the number of working cylinders of an engine.
An electronic sound monitor for use as a stethoscope, a signal treatment and a method for treating the signals using the monitor. The sound monitor includes at least one transducer for transforming vibrations to electrical signals, a filtering, A/D- and D/A-converter, amplifier, a processor, a sound chamber in which at least one transducer for transforming electrical signals to sound is arranged, and a sound channel opening into the sound chamber. The sound channel being adapted to forward the sound from the sound chamber through an opening connecting the sound channel with the ambient air.
Provided is a method of automatically fitting a hearing aid. The method includes entering the audiogram of a test subject, defining criterion gains and SSPLs based on installed criterion gains and SSPLs according to the test subject's audiogram, generating sounds from automatic fitting device, measuring the sounds using probe microphone inserted in external earcanal, adjusting the criterion gain and SSPLs of the hearing aids based on differences between output sound amplitude and measured sound amplitude, and saving the changed values to the hearing aids automatically, in a state in which the hearing aid is worn by a test subject.
A method and an associated hearing aid for loudness-based adjustment of the amplification of the hearing aid by presenting test signals of a predefinable level and predefinable frequency. Blind signals are presented before and between the test signals, but the blind signals are not taken into account for the adjustment of the amplification of the hearing aid at the predefinable level and predefinable frequency. A method for binaural loudness-based adjustment of the amplification of a left hearing aid and a right hearing aid is also specified. An advantage of the invention is that it is easier for a hearing aid wearer to rank the presented test signals in his individual loudness value system and to assess them accordingly.
An authenticated RFID system is provided that uses elliptic curve cryptography (ECC) to reduce the signature size and read/write times when compared to traditional public key implementations such as RSA. Either ECDSA or ECPVS can be used to reduce the signature size and ECPVS can be used to hide a portion of the RFID tag that contains sensitive product identifying information. As a result, smaller tags can be used or multiple signatures can be written at different stages in a manufacturing or supply chain. A key management system is used to distribute the verification keys and aggregate signature schemes are also provided for adding multiple signatures to the RFID tags, for example in a supply chain.
According to one embodiment, a device includes a storage and an authenticator. The storage includes a first area, a second area and a third area. The first area stores NKey and SecretID, the second area stores index information. E-SecretID is generated by SecretID. The third area stores FKB including information generated by FKey. The authenticator authenticates the external device. HKey is generated by an AES encryption calculating using NKey and HC. A SKey is generated by an AES encryption process using HKey and RN. A one-way conversion calculating is performed. E-SecretID, FKB and Oneway-ID are output to the external device. The index information is read from the second area.
This invention allows connection of an apparatus with a low security level without lowering the security level of a network even when such apparatus issues a connection request. This invention is directed to an access point which makes wireless communications with a station using an encryption method (AES). Upon reception of a connection request message including information indicating an encryption method (WEP) that can be used by a station, the access point checks if the encryption method (WEP) recognized based on the received connection request message is different from the encryption method (AES). When it is determined that the two encryption methods are different, the access point launches a controller which makes wireless communications with the station using that encryption method (WEP).
An initialization vector (IV) is employed to decrypt a block of a stream that has been encrypted with Cypher Block Chaining (CBC) encryption, without requiring decryption of previous blocks within the stream. For example, a listener who accesses a distribution point to retrieve encrypted content authenticates himself to an application server that regulates access to encrypted content on the distribution point, and responsively receives a key. The listener then requests access to a reference point within the encrypted content stream somewhere after its beginning (e.g., using preview clips). The distribution point relates the reference point to a corresponding block of the encrypted stream, and identifies an IV previously used for encryption of that block. The distribution point provides the associated encrypted block of content and the IV to the listener to enable mid-stream rendering of the encrypted content, without requiring the listener to decrypt previous blocks within the encrypted stream.
A system for handling a telephone call within a telephone network, comprising a multi-tenanted CTI server within a telecommunications network adapted to receive telephone calls on behalf of a plurality of outlets, wherein the CTI server is adapted for queuing an incoming call in the network when no agent is available and is further adapted to forward an incoming call to an agent when the agent becomes available. The CTI server is configured to use an indicia received with the received call to identify the caller and to retrieve a profile from a cloud-based CRM system of the caller by matching the indicia to a previously-stored indicia in a call history database, the profile comprising at least a plurality of previous orders processed by an outlet on behalf of the caller, the profile being used to provide priority call handling for certain callers.
A call server includes a network interface for connecting the call server to a packet-based network within a telecommunications network. The call server establishes a first connection with a calling party terminal and a second connection with a called party terminal via the packet-based network. The call server then joins the first connection with the second connection to establish communication between the calling party terminal and the called party terminal. The call server may park the second connection when the first connection is terminated or vice-versa and establish a new connection with the calling party terminal via the packet-based network if the first connection was terminated or vice versa. The call server may join the new connection with the first or second connection to reestablish communication between the calling party terminal and the called party terminal.
An improved conference calling system that operates to correlate a conference call with other conference calls, along with collateral information pertinent to the conference call, and deliver the correlated information to conference call participants or other entities. When setting up a conference call, a reservation system interface enables a user to not only schedule the conference call, but to also enter information that can be used to (a) correlate the instance conference call with previous or future conference calls, (b) set up for the recordation of the conference call, (c) set up for the delivery of the recorded conference call through one or more media channels, and (d) provide the recorded conference call as well as any related collateral and correlated conference calls to various parties.
A method includes establishing a modem connection, receiving an on-hold request over the modem connection, comparing a cumulative time that the modem connection has been on hold to a threshold value, and resolving the on-hold request based upon the comparison.
A system and method for implementing and managing an information distribution system through a telephonic system. In one embodiment, information related to a callee merchant is dynamically transmitted to users of Internet connectivity capable communication devices.
A call tracking system and method that uses an automated filtering function to increase accuracy of call tracking. In some embodiments, the system utilizes a spam blocking module, such as a challenge-response test (e.g., a CAPTCHA), a blacklist for callers sharing certain criteria indicative of robo-dialed or spam calls, or other similar spam filter to block unwanted calls from being routed to an advertiser. By using a spam blocking module, the amount of noise in the call tracking system can be reduced and the attribution of calls correspondingly more accurate. In some embodiments, an interactive voice response (IVR) module is utilized to reduce the noise in the system by filtering or blocking unwanted calls. By utilizing an automated filtering function, the disclosed system improves the accuracy of call tracking and allows advertisers to better track the performance of advertising campaigns that they undertake.
A message greeting system receives a notification that a party is unavailable in response to a communication initiated by a contacting party. In response to receiving the notification, the message greeting system acquires contextual data associated with the contacting party, determines a message greeting that is appropriate for the contacting party based upon the contextual data, acquires the appropriate message greeting, and sends the appropriate message greeting to a contacting party device associated with the contacting party. The appropriate message greeting includes a message greeting that is usable by the contacting party given a context in which the contacting party is involved as identified by the contextual data. In some embodiments, the message greeting system acquires the appropriate message greeting by adapting an inappropriate message greeting for the context in which the contacting party is involved, thereby creating the appropriate message greeting.
A method and a device are provided for data processing, including the steps of transmitting a first signal from a first instance to a second instance and sending a second signal from a third instance to the first instance, wherein the second signal corresponds at least partially to the first signal as received at the third instance.
The invention concerns a vessel for processing, transfer, accumulation and/or transfer of material containing civilian or military origin plutonium, in the form of plutonium oxide, carbide and/or nitride. The plutonium is preferably present in a concentration not higher than a guaranteed maximum between 20 and 50% wt. in said material, possibly with other actinides such as americium, neptunium, or curium. Said material is preferably in form of powder, granulate and/or tablets. The vessel comprises a volume of 20 to 70 liters for containing said material, demarcated at least by two substantially parallel walls, these two walls being separated by a distance e between 8 and 15 cm. The invention concerns also an enclosure comprising analogous geometrically safe criticality-preventing means (bottom-catcher), a fuel production plant comprising a set of such vessels, preferably installed in a set of said enclosures, as well as a nuclear fuel production process carried out in a set of such vessels, preferably installed in a set of said enclosures.
A system for installing or removing a component of a nuclear reactor, such as a CRDM, includes a riser apparatus having a lift assembly structured to hold and support the component and a first drive assembly coupled to the lift assembly and structured to selectively move the lift assembly and the component along a length of the riser apparatus, and a transition cart movable along an under vessel area of the nuclear reactor and having a pivot mechanism, wherein the riser apparatus is selectively engageable with the pivot mechanism and the pivot mechanism is structured to selectively rotate the riser apparatus from a horizontal position to a vertical position. The riser apparatus may also include a second drive assembly structured to selectively move the riser apparatus relative to the transition cart in a direction parallel to a longitudinal axis of the riser apparatus.
A two point modulation digital phase locked loop circuit is disclosed. The circuit includes a sampling clock input that is switchable between a plurality of frequencies. The circuit also includes a sigma-delta modulator in a feedback path that receives low-pass modulation data. The circuit also includes a voltage-mode digital-to-analog converter (VDAC) that receives high-pass modulation data. The circuit also includes an analog voltage controlled oscillator coupled to the feedback path and the output of the VDAC. The circuit also includes a phase-to-digital converter (PDC) coupled to the feedback path, the sampling clock and a loop filter.
A digital phase frequency detector includes a detection unit, a reset unit and a phase comparison unit. The detection unit detects edges of a reference signal and a feedback input signal to generate a reference edge signal and a feedback edge signal. The reset unit generates a reset signal resetting the detection unit based upon the reference edge signal and the feedback edge signal. The phase comparison unit generates first and second phase comparison signals based upon the reference edge signal and the feedback edge signal. The phase comparison unit includes a first flip-flop generating a first comparison signal based upon the reference edge signal and the feedback edge signal, a second flip-flop generating a second comparison signal based upon the reference edge signal and the feedback edge signal, and a latch block latching the first and second comparison signals to generate the first and second phase comparison signals.
A bang-bang frequency detector with no data pattern dependency is provided. In examples, the detector recovers a clock from received data, such as data having a non-return to zero (NRZ) format. A first bang-bang phase detector (BBPD) provides first phase information about a phase difference between a sample clock and the clock embedded in the received data. A second BBPD provides second phase information about a second phase difference between the clock embedded in the received data and a delayed version of the sample clock. A frequency difference between the sample clock and the clock embedded in the received data is determined based on the first and second phase differences. The frequency difference can be used to adjust the frequency of the sample clock. A lock detector can be coupled to a BBPD output to determine if the sample clock is locked to the clock embedded in the received data.
A high-linearity Phase Interpolator based Clock and Data Recovery (CDR) circuit for use in a multi-standard Serializer/Deserializer (SerDes) is provided. By interpolating at a high, fixed frequency for all supported data rates and then dividing the output clock down to the appropriately frequency for each standard, the Phase Interpolator can provide for maximum phase linearity while reducing its sensitivity to noise.
A receiver comprises an adaptive filter having an input for a digitized input signal, means for storing a pre-designed filter characteristic, means for analyzing a digital. representation of the input signal to determine a desired position of the filter characteristic to match the system requirements, and means for adapting the stored pre-designed filter characteristic in the frequency domain and/or the time domain to match the system requirements and for transforming the adapted filter characteristic to the time domain to update coefficients for the adaptive filter and for loading updated coefficients into adaptive filter. The updating of the coefficients may be done periodically. The adaptation may be one or more of adjusting bandwidth, frequency shift and, in the case of a bandpass characteristic, superimposing characteristics.
A clock-data recovery system and method promotes fast adjustment to large phase changes in the incoming data signal. The system can include phase alignment circuitry, clock generator circuitry, time-to-digital converter circuitry, and sampling circuitry. The phase alignment circuitry uses the incoming data signal and a feedback clock signal to generate an output clock signal. The clock generator circuitry uses the output clock signal to generate base phase clock signals of different phases or polarities. The time-to-digital converter circuitry uses the base phase clock signals and the incoming data signal to generate the feedback clock signal. The time-to-digital converter circuitry bases the feedback clock signal on the base phase clock signal that is aligned more closely in phase with the incoming data signal than the other base phase clock signals. The sampling circuitry re-times or recovers the data signal using one or more of the base phase clock signals.
A receiver circuit includes a first slicer coupled to receive data signals from a signal path and a reference voltage from a reference voltage path that is separate from the signal path. The first slicer is configured output a logic value based on a comparison between a voltage of the data signal and the reference voltage. The receiver circuit further includes a reference voltage generator configured to generate the reference voltage. The reference voltage generator is configured to dynamically generate the reference voltage based on logic values of previously received signals during operation in a first mode. During operation in a second mode, the reference voltage generator is configured to generate and provide the reference voltage as a static voltage.
A method for estimating transceiver non-idealities is disclosed. In one aspect, the method comprises generating a preamble comprising multiple sets of known training sequences with a synchronization part preceding an estimation part. The training sequences in the estimation part comprises at least two sequences which are (i) complementary Golay sequence pairs and (ii) selected to satisfy a predetermined correlation relationship chosen for estimation of a first non-ideality characteristic. A first estimate of a non-ideality characteristic is determined on the basis of the known training sequences of the synchronization part of the received preamble. The estimation part of the received preamble is compensated by this estimate. Another non-ideality characteristic is determined by the compensated estimation part, exploiting the predetermined correlation relationship.
Communication is performed for a first communication device having a set of antenna elements. A quality-indication signal is received from a second communication device (e.g., a basestation). A complex weighting is calculated based on the quality-indication signal. A pre-transmission signal is modified based on the complex transmit diversity weighting to produce a set of modified-pre-transmission signals, wherein the modifications are symmetric by making approximately half the magnitude of the transmit diversity modification to one signal in a first direction, and approximately half the magnitude of the transmit diversity modification to the other signal in a second direction, opposite the first direction. Each modified pre-transmission signal from the set of modified-pre-transmission signals is uniquely associated with an antenna element from the set of antenna elements. The set of modified-pre-transmission signals is sent from the set of antenna elements to produce a transmitted signal.
A signal receiving apparatus includes: a processing unit configured to carry out Fourier transform on Fourier-transform data serving as a Fourier-transform object and carry out Fourier transform on inverse-Fourier-transform data serving as an inverse-Fourier-transform object; and a control unit configured to output pieces of data obtained as a result of the Fourier transform carried out on the Fourier-transform data in an order, in which the pieces of data have been obtained, in a process of outputting the pieces of data and output other pieces of data obtained as a result of the Fourier transform carried out on the inverse-Fourier transform data by rearranging the other pieces of data in a process of outputting the other pieces of data.
A wireless communication device includes a medium access control device, a first module and a second module. The medium access control device is configured to determine a first parameter based on a condition of a channel. The wireless communication device communicates, via the channel, with a device separate from the wireless communication device. The first module is configured to, based on the first parameter, determine whether an operating environment of the wireless communication device is a rich-scattering environment or a line of sight environment. The second module is configured to adjust a second parameter of the wireless communication device based on the operating environment as determined by the first module. The second parameter is different than the first parameter.
Radio devices such as long range radio devices configurable with a limited, configuration only power that is insufficient for normal operation of the radio are disclosed. Portable, limited power supplies allow effective configuration of radio devices at remote locations in the field. Methods of configuring radio devices are likewise disclosed.
An Linear Time Code (LTC) receiver for receiving and decoding a LTC frame of the type used in connection with film and television and accompanying audio includes a first counter that measures the number of reference clock periods within the duration of a bi-phase mark signal interval to yield a timing reference for extracting the payload from the LTC frame. A second counter detects a sync field within the LTC frame to establish the LTC frame direction. A third counter serves to count the number of symbols in the LTC frame. A state machine responsive to the counts of the first, second and third counters, serves to (a) detect a valid synchronization sequence within an incoming LTC frame; (b) determine the LTC frame direction, (c) decode (extract) payload information from the LTC frame; and (d) transfer the payload information in an order determined by the LTC frame direction.
There are provided a method and apparatus for reusing available motion information as a motion estimation predictor for video encoding. The apparatus includes an encoder for encoding an image block by determining a motion estimation predictor for the image block using motion information previously generated from an element other than the encoder, and using the motion estimation predictor in a motion estimation process to generate a motion vector for the image block. The motion estimation predictor is used in place of at least one predictor otherwise used in the motion estimation process. The at least one predictor is any of a search window predictor, a temporal predictor, and a block type predictor.
Efficient encoding and/or decoding of digital video is provided using multiple candidate reference frames, making playback of the digital video optionally reversible. For example, a source can be encoded as duplex coded frames having multiple candidate reference frames. The reference frames can be previous or future frames, and the duplex coded frames can be encoded at a bit-rate that ensures lossless decoding using any of the candidate reference frames. Therefore, the duplex coded frames can encoded in normal and/or reverse temporal order. In this regard, the ability to decode digital video frames using either a single previous or future frame enables reversible digital video, bit-stream switching and video splicing arbitrary time points, and provides for increased error resilience.
A method and apparatus for decoding a video and a method and apparatus for encoding a video are provided. The method for decoding the video includes: receiving and parsing a bitstream of an encoded video; extracting, from the bitstream, encoded image data of a current picture of the encoded video assigned to a maximum coding unit, and information about a coded depth and an encoding mode according to the maximum coding unit; and decoding the encoded image data for the maximum coding unit based on the information about the coded depth and the encoding mode for the maximum coding unit, in consideration of a raster scanning order for the maximum coding unit and a zigzag scanning order for coding units of the maximum coding unit according to depths.
A decoding method decodes a bit stream in an image decoding apparatus. The method includes receiving a weight parameter that is added to a luma quantization parameter as the bit stream. The method also includes decoding, in a decoding unit in the image decoding apparatus, the bit stream, and generating a luma component of quantized coefficients and a chroma component of quantized coefficients. Further, the method includes performing, in a dequantization unit in the image decoding apparatus, dequantization on the luma component of quantized coefficients using the luma quantization parameter and the chroma component of quantized coefficients using a chroma quantization parameter calculated on the basis of the luma quantization parameter weighted by an add operation of the weight parameter. In addition, the method includes performing, in a transform unit in the image decoding apparatus, an inverse orthogonal transform.
A frequency level detecting method includes counting pulses of a spread-spectrum clock, the spread-spectrum clock having a frequency that is modulated within a frequency range from a minimum frequency to a maximum frequency in a constant modulation period of time, the frequency range being divided into a plurality of sub-ranges each corresponding to one of a plurality of frequency levels; determining at least one to-be-counted value range corresponding to one of the plurality of sub-ranges; judging whether or not the counted pulses fall within one of the at least one to-be-counted value range; and generating a level detection signal if the counted pulses fall within the one of the at least one to-be-counted value range, the level detection signal indicating that a frequency of the spread-spectrum clock falls within one of the plurality of frequency levels that corresponds to one of the plurality of sub-ranges corresponding to the one of the at least one to-be-counted value range.
The present disclosure relates to a self-contained, random scattering laser generating device comprising a housing comprises an opening and an inner chamber, at least one quantum dot positioned inside the inner chamber, a high-energy emitting source positioned within the inner chamber and in radioactive communication with the at least one quantum dot, and a first lasing medium. The present disclosure also relates to a method comprising providing at least one quantum dot, contacting the at least one quantum dot with a high-energy emitting source whereby randomly scattered light is produced, partially coherently amplifying the randomly scattered light emitted from the at least one quantum dot, and generating a random scattering laser.
There is provided a method of statistically multiplexing a plurality of input video data streams into at least one output data stream having a pre-determined capacity, comprising providing a plurality of bit rate estimates at different quality levels for each input video data stream using a look-ahead encoder, summing together the bit rate estimates of the same quality level for all input video data streams, determining the picture quality of each input video data stream at which the summed bit rate estimates is equal to or less than the output data stream pre-determined capacity. There is also provided an apparatus and system for carrying out the method, and a computer readable product carrying instructions which when executed carry out the method.
A method of wireless communication includes partitioning coexistence tasks between short term policy setting tasks and policy implementing tasks, processing the short term policy setting tasks using a first set of computing resources, and processing the policy implementing tasks using a second set of computing resources. The first set may be software resources configured for slower execution of tasks and the second set may be hardware resources configured for just-in-time execution of tasks. The policy may determine a time after which a first radio event is not to be interrupted and granting or denying later events based on whether they would begin before or after the do-not-interrupt time. The do-not-interrupt time may be based on a weighted priority of the first radio event.
The present invention includes a method, a system, and a computer readable medium for establishing a connection between hosts in a computer network with the connection configured for symmetrical forward and reverse routing. The method uses the following steps. First, a first host local routing table to route a packet from a first host to a first gateway according to a routing protocol. Next, the first gateway local routing table routes the packet from the first gateway to a first access router. After that, a first access router local routing table routes the packet from the first access router to a second access router. Then, a second access router local routing table routes the packet from the second access router to a second gateway. Finally, a second gateway local routing table routes the packet from the second gateway router to a second host.
In general, techniques are described for providing extended administrative groups in networks. A network device comprising an interface and a control unit may implement the techniques. The interface receives a routing protocol message that advertises a link. This message includes a field for storing first data associated with the link in accordance with the routing protocol. The field is defined by the routing protocol as a field having a different function from an administrative group field defined by the same routing protocol. The control unit determines that this field has been repurposed to store second data, wherein this second data specifies an extended administrative group for the link different from those that may be specified by the administrative group field. The control unit then updates routing information to associate the advertised link with the extended administrative group and performs path selection to select paths based on the updated routing information.
A method, apparatus and computer program product are presented. In a system having at least one Multi Link Trunk/Link Aggregation Group (MLT/LAG), a table is provided for each MLT/LAG, each table having at least one entry, each entry including at least two fields, a first field comprising a port member identification (ID) field and a second field comprising a port member status field. A port member status is checked for a port when a packet flow hashes into the table, and the status for the port member is determined. When the port member status is in a first state, then the associated port member ID is used as a destination port to transmit to. When the port member state is in a second state, then a next entry in the port table is accessed to find a next available entry having a port member status that is in the first state and the corresponding port member ID of the port member state that is in the first state is used as a destination port to transmit to. The first state is UP and the second state is DOWN.
A method for data communication between a base station and at least one transponder by a high-frequency electromagnetic carrier signal is disclosed, onto which information packets are modulated, whereby each information packet has a header section, a middle section, and an end section and whereby the middle section has a data field for the transmission of data and/or address information and a protection field placed thereafter for the correction of errors in the transmission of the data and/or address information, whereby after the data field the base station inserts at least one control field, by which the protection field following the inserted control field can be changed in such a way that the duration of an information packet is set variably. The invention relates further to a base station for carrying out this method, to a data communication system containing a base station and at least one transponder in communicative wireless contact with the base station.
The subject matter disclosed herein provides methods and apparatus, including computer program products, for determining a link performance parameter, such as a supplemental channel characteristic of a wireless link. In one aspect, a base station receives packets from a client station. The base station determines a link performance parameter based on an error rate associated with reception of the packets. The base station then uses the link performance parameter to determine a modulation and coding scheme for use in transmitting packets to the client station. Related systems, apparatus and methods are also described.
The present invention is directed to a wireless communication system. In particular, the present invention is directed to a method of processing a control channel at a user equipment in a wireless communication system using multiple carriers, the method comprising: receiving a plurality of search spaces, wherein each search space comprises a plurality of control channel candidates and each search space is corresponding to respective carrier; and monitoring the control channel candidates for the control channel, wherein if the control channel candidates have a common information size over two or more search spaces, the control channel can be received via any one of the two or more the search spaces, and an apparatus therefore.
A method of transmitting pilot signals for channel compensation in a mobile communication system is disclosed. In the disclosed method, a first pilot signal and a second pilot signal are time-division multiplexed together with a data signal of a user into a time-division multiplexed signal which data signal is assigned a certain bandwidth; the time-division multiplexed signal is frequency-division multiplexed together with time division multiplexed signals of other users when wirelessly transmitted; and the first pilot signal is assigned a bandwidth larger than the bandwidth of the data signal and the second pilot signal is assigned a bandwidth smaller than the bandwidth of the data signal.
Time division multiplexing (TDM) partitioning is one of the inter-cell interference coordination (ICIC) mechanisms considered for a heterogeneous network (HetNet) ICIC in a co-channel deployment. For example, in subframes that are pre-allocated to an evolved Node B (eNB), neighbor eNBs may not transmit, hence interference experienced by served user equipments (UEs) may be reduced. Semi-persistent scheduling (SPS) grants may have various available periodicities, which may not be compatible with TDM partitioning. Therefore, a UE may miss an SPS opportunity that was scheduled for a subframe that was not usable by the UE. Hence, using SPS grants with small periodicities in a heterogeneous network with TDM partitioning may require changes which may include adjusting the periodicities of the SPS grants, rescheduling of uplink SPS messages based on resource partitioning information (RPI), and/or determining RPI based on current SPS grants.
Providing for access point assisted signal acquisition for heterogeneous access point wireless networks is described herein. By way of example, a closed subscriber group (CSG) base station, such as a home NodeB (HNB) can be configured to provide temporary, limited access to a UE that is not authorized to access the HNB. Upon receiving and rejecting an access probe, the HNB can negotiate with a surrounding macro network to provide service for the UE. Further, the HNB can forward signal acquisition data, to assist in proper decoding of pilot or synchronization signals of the macro network. In particular aspects, the HNB can reduce power or blank transmissions on reserved access resources to reduce interference for the UE. By these and other disclosed mechanisms, the HNB can assist a non-CSG subscriber to obtain network service, and mitigate interference effects due to proximity to the UE.
There is disclosed a method of estimating the location of a plurality of electromagnetic signal sources, comprising: scanning at a first plurality of locations to generate signal source position data, the signal source position data representing estimates of the position of at least one of said signal sources; scanning at a second plurality of locations using a signal detection system to generate signal detection data, the signal detection data relating to signals received at the second plurality of locations from the signal sources; processing the signal source position data in dependence on the signal detection data to correct estimation errors in the signal source position data; and outputting the processed signal source position data.
A wireless network includes base stations and mobile stations. The base stations determine burst sizes and partitions, and signal this information to the mobile stations.
Some embodiments are directed to a method and apparatus for performing resource negotiation in a station implementing a direct communication link with at least one other station on an Orthogonal Frequency-Division Multiple Access (OFDMA) data channel. The station scans sub-channels on the data channel for base headers included in predefined position in transmissions sent on the sub-channel. The station then decodes a base header in at least one selected sub-channel to obtain parameters of a channel reservation. The obtained parameters are stored in a channel utilization table. The station selects a resource on the data channel in at least one of time or frequency that the station has observed to be free using information from the channel utilization table. The station then begins a resource negotiation process about the selected resource.
A method, system, and logic for upgrading mesh points of a wireless mesh network. One method includes maintaining a mesh topology data structure containing information on the tree topology of a wireless mesh network. The method further includes using a tree-walking method to send an upgrade message to the root access point and to each other mesh point in the wireless mesh network until each mesh point has received the upgrade message. Receiving the upgrade message enables the receiving mesh point to upgrade according to the contents of the upgrade message without necessarily disrupting the mesh network.
A frame structure for support of large delay spread deployment scenarios (e.g., cellular system operation in large cell sizes or low frequency bands) is generally presented. In this regard a method is introduced comprising partitioning a radio frame into a plurality of equal-sized (or non-equal-sized) sub-frames to simplify system implementation. Other embodiments are also disclosed and claimed.
Techniques for bundling acknowledgement (ACK) information in a wireless communication system are described. In one design, a user equipment (UE) may receive multiple codewords in at least one downlink subframe. The UE may decode the multiple codewords and determine an ACK or a negative acknowledgement (NACK) for each codeword based on decoding result. The UE may bundle the ACKs and NACKs for the multiple codewords to obtain bundled ACK information. In one design, the UE may generate (i) a bundled ACK if ACKs are obtained for all codewords or (ii) a bundled NACK if a NACK is obtained for any codeword. The UE may send the bundled ACK information as feedback for the multiple codewords. The UE may receive retransmissions of the multiple codewords if a bundled NACK is sent and may receive new codewords if a bundled ACK is sent.
A method is provided for enabling a base station to infer a compact topology graph among a set of mobile nodes in its cell, the mobile nodes having a secondary radio to enable inter-nodal communication. This methodology ensures that nodal membership information is gathered within approximately 100 ms, and additional topology information is gathered from all the mobile nodes within approximately 300 ms over Wi-Fi radios. In dense networks, this time can be reduced to within 100 ms.
A method and apparatus for collecting and processing line performance data transmitted over cables, e.g., Y-cables, is disclosed. The present invention applies a method based on specific performance measurements, specific measurement time intervals, and compare results from different measurement time intervals to produce a “signature” that indicates deteriorating performance of a particular Y-cable. Once a “signature” is detected, the method will proactively and automatically generate a trouble ticket to trigger the dispatch maintenance staffs to service the cable, e.g., to perform the replacement of the Y-cable in question, thus completing the predictive maintenance process. A trouble ticket is a record used to report and manage the resolution of network related problems.
Methods and apparatus to utilize route aggregation for exchanging routes in a communication network are disclosed. An example method to exchange routes in a communication network disclosed herein comprises aggregating a plurality of individual routes into an aggregate route characterized by an aggregate route identifier and a plurality of aggregate route parameter values, the plurality of individual routes comprising a respective plurality of individual route identifiers and respective pluralities of individual route parameter values, the aggregate route identifier to represent an aggregation of the plurality of individual route identifiers, the plurality of aggregate route parameter values to match at least some of the pluralities of individual route parameter values for at least some of the plurality of individual routes, and sending the aggregate route identifier and the plurality of aggregate route parameter values to a recipient in the communication network to forward the plurality of individual routes to the recipient.
A system, method and computer program product are provided for scanning data received from a computer network. Included is a central processing unit for processing data. Coupled between the central processing unit and a network is a network processor. Such network processor is capable of scanning data received from the network based on an update. Such network processor is further capable of receiving the update via the network.
In one embodiment, the network node receives a packet traffic aggregated from one or more concurrent application streams in a packet switched network. A number of the one or more concurrent application streams is estimated as a granularity of the packet traffic. A drop probability Pd is calculated based on the estimated granularity and the current traffic load of the network node. The calculated drop probability Pd is provided for a congestion control.
A communicating apparatus includes a first acquire unit that acquires a first usage bandwidth to be a usage bandwidth of the communicating apparatus; a negotiation unit that negotiates by utilizing information corresponding to the first usage bandwidth in relation to a transmission speed in an execution of a communication with another communicating apparatus connected to the communicating apparatus through a network; a second acquire unit that acquires a second usage bandwidth as a negotiation result obtained by the negotiation unit; and a communicating unit that transmits data to the another communicating apparatus at a lower transmission speed than a transmission speed based on the first usage bandwidth corresponding to information about the second usage bandwidth.
Techniques are provided to enable a switch in a layer-2 multipath network to determine connectivity of a path to a destination switch. At a source switch, user flow parameters are determined for user flow packets to be transported in the layer-2 multipath network to a destination switch. The sourced switch determines a number of hops from it to the destination switch based on the user flow parameters. Timestamping is activated for time-to-live expiry packets received at the source switch and for time-to-live expiry packets received at the destination switch. One or more probe packets having user flow parameters matching the user flow parameters of user flow packets are generated so that the probe packets use the same path taken by the user flow packets between the source switch and the destination switch. In addition, a time-to-live value corresponding to the number of hops from the source switch to the destination switch is included in a hop count field of the one or more probe packets. The time-to-live value distinguishes the one or more probe packets from user flow packets. The one or more probe packets are sent in the layer-2 multipath network from the source switch to the destination switch. Connectivity between the source switch and the destination switch is determined based on the one or more probe packets.
Differentiated services are provided through service level agreements (SLAs) between access nodes and some of the clients using a wireless access network. Client devices include internal devices that are compliant with service-related specifications published by the access nodes. Client devices also may include non-compliant external and legacy devices, as well as outside interferers. The access nodes control target SLAs for each client device. The access nodes and the internal client devices perform rate limiting to ensure that a device's target SLA is adhered to. The service-related specifications include schedules to ensure preferential access for preferred internal client devices. The internal client devices send usage and bandwidth availability feedback to the access node they are associated with, enabling the access node to come up with better schedules for meeting the preferred internal devices' SLAs in view of the network conditions reported via the feedback.
Provided are a shared mesh protection switching apparatus and method. The shared mesh protection switching apparatus includes a plurality of linear protection switching processors allocated to the linear protection domains respectively and configured to provide a switching report signal in response to fault occurrence in the corresponding linear protection domains or a linear protection switching operation, and perform a function of limiting use of the shared section in response to a provided lock signal, and a mesh protection switching processor configured to select at least one linear protection domain to be limited in use of the network resources of the shared section according to a predetermined reference when the switching report signal is provided and provide the lock signal to a linear protection switching processor corresponding to the at least one selected linear protection domain.
Methods and devices for extracting a RACH preamble using as input a number of Fast Fourier Transformed symbols, in order to extract a random access channel (RACH) preamble from a signal received in a base station from a user device, in a radio communication system, are provided. An initial cyclic prefix (symbol CP) is removed prior to performing FFT on symbols. After (1) selecting from the FFT of a symbol frequencies corresponding to the RACH band all other non-RACH frequency bins having been set to zero, (2) shifting the signal to baseband and (3) performing a FFT on the baseband signal, a phase adjustment is performed to compensate for group delays due to symbol CP gaps occurring when generating the baseband signal, the phase adjustment being determined individually for each symbol.
An information signal area on an information signal recording surface is provided as pits on a mirror in accordance with modulated information data, and is covered with a metal alloy reflective film. Sections that do not include pits corresponding to the information data are provided in the information signal area, and portions of the metal alloy reflective film on the sections are formed as perforated marks corresponding to the information data. In this case, the reproduction signal amplification level of a prepit signal and the reproduction signal amplitude level of a perforated mark signal can be obtained as substantially equal values by adjusting the depth and width of pits and/or adjusting the width and length of perforated marks. Hence, waveform distortion due to a waveform equalization circuit and variations in binary signals due to displacement of the slice level are reduced so that signals can be stably and reliably detected with the same reading apparatus.
A disk drive is disclosed comprising a head actuated over a disk, wherein a bootstrap spiral track is written on the disk. While servoing on the bootstrap spiral track at least one circular reference track is written on the disk. A velocity profile is adjusted in response to the circular reference track, and a plurality of spiral tracks are written to the disk in response to the velocity profile.
A talking watch device for helping a user learn time comprising a base having a clock face; a quartz oscillator assembly; a digital counter operatively connected to the quartz oscillator assembly and to a microprocessor, the digital counter keeps track of a time, day, month, and year component; a memory medium for storing a plurality of audio messages; a speaker component operatively connected to a digital to analog converter; and a dial operatively connected to the microprocessor, the dial can move between a first position, a second position, a third position, and a fourth position, wherein the microprocessor is configured to receive input signals from the dial whereupon the microprocessor generates output commands to the speaker to play a time component message and/or a day component message and/or a month component message and/or a year component message.
An electronic perpetual calendar erasable board with a tackable surface, such as a bulletin bar. In one embodiment, the calendar may include a front panel having a graphic that includes cells each representing a calendar day, e.g., a month grid of cells arranged in rows and columns or a weekly planner table with cells arranged in a row. The front panel may include a plurality of electronic displays so that the calendar is capable of displaying an accurate number and configuration of days for any month or week. Other embodiments may include a markable and erasable write-on/wipe-off surface and a frame that has a tackable surface integrated therein. The tackable surface may be cork, foam, fiber, or a composite.
A sound source includes a bubble configured to be filled with a gas. The sound source also includes an actuator configured to perturb the gas within the bubble by changing the volume of the gas without adding gas to or removing gas from the bubble. The sound source also includes a processing circuit configured to provide a control signal to the actuator to cause the actuator to perturb the gas within the bubble at a frequency defined by the control signal.
An embodiment includes a method comprising transmitting and receiving an acoustic signal that is modulated along a jointed tubing. The acoustic signal may be transmitted in multiple passbands of the jointed tubing and may be modulated differently in different passbands. A swept frequency signal may be used to determine transmission characteristics of the jointed tubing and to select the multiple passbands. Additional embodiments are disclosed.
A semiconductor memory device including an information storage unit comprising a fuse configured to store information, a control unit configured to control a node of a blown fuse to become a floating state in response to a control pulse signal, and an output unit configured to output the information.
An interface circuit having a first signal path and a second signal path is disclosed. The first and second signal paths are coupled between a first and second nodes, wherein the first node is coupled to receive signals from a source external to an integrated circuit upon which the interface circuit is implemented. Each of the first and second signal paths include circuitry implemented with transistors rated at higher voltages than internal circuitry coupled to receive signals therefrom. The first and second signal paths may utilize different circuit topologies. The interface may thus be used in environments where external circuitry coupled to the external input node conforms to one of a number of different standards (e.g., LPDDR1 and LPDDR2).
Methods and apparatus are provided for programming multiple program values per signal level in flash memories. A flash memory device having a plurality of program values is programmed by programming the flash memory device for a given signal level, wherein the programming step comprises a programming phase and a plurality of verify phases. In another variation, a flash memory device having a plurality of program values is programmed, and the programming step comprises a programming phase and a plurality of verify phases, wherein at least one signal level comprises a plurality of the program values. The signal levels or the program values (or both) can be represented using one or more of a voltage, a current and a resistance.
Data errors in non-volatile memory inevitably increase with usage and with higher density of bits stored per cell. The memory is configured to have a first portion operating with less error but of lower density storage, and a second portion operating with a higher density but less robust storage. An error management provides reading and checking the copy after copying to the second portion. If the copy has excessive error bits, it is repeated in a different location either in the second or first portion. The reading and checking of the copy is accelerated by reading only a sample of it. The sample is selected from a subset of the copy having its own ECC and estimated to represent a worst error rate among the copy it is sampling. One embodiment has the sample taken from one bit of each multi-bit memory cell of a group.
According to one embodiment, a magnetic memory element includes a memory layer, a first nonmagnetic layer, a reference layer, a second nonmagnetic layer, and an adjustment layer which are stacked. The adjustment layer is configured to reduce a leakage magnetic field from the reference layer. The adjustment layer is formed by stacking an interface layer provided on the second nonmagnetic layer, and a magnetic layer having magnetic anisotropy perpendicular to a film surface. Saturation magnetization of the interface layer is larger than that of the magnetic layer.
A write driver circuit for a magnetic random access memory includes a memory cell array including a plurality of magnetic memory cells in which a pair of magnetic memory cells adjacent to each other in a direction of a bit line share a source line, and each magnetic memory cell is connected between the bit line and the source line. The write driver circuit includes a switching unit connected between a terminal for supplying a positive recording voltage and a terminal for supplying a negative recording voltage to selectively supply current generated by the positive recording voltage or the negative recording voltage to the bit line according to a write enable signal and a data signal.
Disturb from the reset to the set state may be reduced by creating an amorphous phase that is substantially free of crystal nuclei when programming the reset state in a phase change memory. In some embodiments, this can be achieved by using a current or a voltage to program that exceeds the threshold voltage of the phase change memory element, but does not exceed a safe current voltage which would cause a disturb.
A memory unit for a computing device is described. The memory device can include a number of memory chips, such as flash nand chips, linked together via a flexible circuit connector. During installation of the memory device, portions of the flexible circuit connector can be bent or folded in different locations to allow an orientation of the memory chips to be changed relative to one another. In one embodiment, a memory device with a number of chips can be provided in a flat configuration and then can be folded to allow the chips to be installed in a stacked configuration. In another embodiment, the flexible circuit connector can be grounded to other conductive components to allow the flexible circuit connector to be used as part of a faraday cage surrounding the memory chips.
An information handling system (IHS) cooling system includes an IHS chassis defining an IHS chassis air inlet. A cooling chassis supports the IHS chassis on a support base. An air supply duct extends from the cooling chassis such that an air supply duct outlet on the air supply duct is immediately adjacent the IHS chassis air inlet. An air cooling subsystem is located in the cooling chassis and is operable to cool air that is drawn into the cooling chassis and supply the cooled air to the IHS chassis air inlet through the air supply duct. The IHS chassis may be a conventional IHS chassis that is designed for sub-35 degree Celsius ambient temperatures, and the cooling chassis may be provided for the conventional IHS chassis when used in extreme environments with high ambient temperatures above 35 degrees Celsius.
A data storage device assembly includes a drive bracket. The drive bracket includes a first side plate and a second side plate which faces to the first side plate. Each of the first side plate and the second side plate defines a slide way which is adapted to receive a data storage device assembly sliding therein. The first piece and a second piece is secured together on the first side plate. The second piece includes a pair of first bent pieces and a pair of second bent pieces connected to edges of the second piece. The pair of first bent pieces faces to each other. The pair of second bent pieces faces to each other. The pair of first bent pieces is secured to the pair of second bent pieces.
Disclosed is a sliding-type portable apparatus and a sliding device of the sliding-type portable apparatus. The portable apparatus includes a main body, a display unit, and a sliding device, in which the sliding device enables the automatic sliding of the keypad unit according to the sliding of the display unit. Further, the portable apparatus includes a driving unit to semi-automatically open/close the display unit and the keypad unit.
A structure for preventing Electrostatic Discharge (ESD) damage to a magnetoresistive sensor during manufacture. The structure includes a switching element that can be switched off during testing of the sensor and then switched back on to provide ESD shunting to the sensor. The switch can be a thermally activated mechanical relay built onto the slider. The switch could also be a programmable resistor that includes a solid electrolyte sandwiched between first and second electrodes. One of the electrodes functions as an anode. When voltage is applied in a first direction an ion bridge forms across through the electrolyte across electrodes making the resistor conductive. When a voltage is applied in a second direction, the ion bridge recedes and the programmable resistor becomes essentially non-conductive.
A method of detaching a head suspension component from a locating and transport structure where the head suspension component is integrally connected to the locating and transport structure by a tab having a reduced tensile strength with respect to each of the head suspension component and the locating and transport structure. The method includes applying a tensile load to the tab to cause the tab to fracture, so that the head suspension component is detached from the locating and transport structure.
A method according to one embodiment includes etching an underlayer positioned under a main pole for reducing a thickness thereof and creating an undercut under the main pole; adding a gap material along sides of the main pole and in the undercut; and forming a shield along at least a portion of the gap material. A magnetic head according to one embodiment includes a main pole; an underlayer positioned under the main pole and spaced therefrom, thereby defining an undercut therebetween; a first layer of gap material extending along sides of the main pole and in the undercut; a second layer of gap material extending continuously along the underlayer under the main pole; and a shield encircling the main pole, wherein the shield extends between the first and second layers of gap material in the undercut. Additional systems and methods are also presented.
A disk drive is disclosed comprising a disk, a head, an actuator for actuating the head over the disk, and control circuitry comprising a servo control system for controlling the actuator. A compensation value is generated based on a speaker driver signal, and the actuator is controlled using the compensation value.
A reflective display device includes a first absorption layer configured to be modulated between being strongly and weakly absorbing of light within a first specified wavelength band and to absorb light weakly in a second specified wavelength band and a third specified wavelength band, a second absorption layer configured to be modulated between being strongly and weakly absorbing of light within the second specified wavelength band and to absorb light weakly within the third specified wavelength band, a third absorption layer configured to be modulated between being strongly and weakly absorbing of light within at least the third specified wavelength band, and at least one reflector arranged between two of the first, second, and third absorption layers, the at least one reflector being configured to reflect light strongly within one of the specified wavelength bands assigned to the absorption layers above the at least one reflector.
A voice coil motor includes a stationary magnetic field generator with a receiving space, a moveable magnetic field generator received in the receiving space, a lens module, a base, and a lower elastic plate. The moveable magnetic field generator includes a lens retainer. The lens retainer defines a circular hole with internal threads. The lens module forms external threads threadedly engaging with the internal threads. An adhesive is coated between the external and internal threads. The stationary magnetic field generator is supported on the base. The base defines an opening in its center. The lower elastic plate is sandwiched between the base and the stationary magnetic field generator and defines a light passing hole. The lower elastic plate includes an elastic portion surrounding the light passing hole. A cross-sectional area of the elastic portion is less than a cross-sectional area of the opening.
Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial.
An optical plummet for use in geodesy includes an eyepiece, a target mark, and an objective. The target mark is positioned in the beam path between the eyepiece and the objective and the target mark and the eyepiece are supported by a first body and the objective is supported by a second body. Either the first body or second body has two annular recesses spaced apart from each other along the beam path and disposed coaxially with respect to the beam path. Each of the annular recesses accommodates a ring. The other body has at least sectionally a cylindrical outer surface extending coaxially through the two annular recesses and rings along the beam path and is guided by the ring such that the distance between the eyepiece and the objective is adjustable by moving the first body and the second body relative to one other along the beam path.
A microscope slide separation device and method of storing microscope slides are disclosed. In specific embodiments, the microscope slide separation device can be placed a folded position that forms a cavity between at least first and second members configured to receive a microscope slide to which both a sample and a slip cover have been coupled. In particular embodiments, the first member may have at least one side configured not to stick to cover slip mounting media.
Provided is an optical apparatus including a filter (102) that includes a first surface (105) intersecting a rotation axis at a predetermined angle and a second surface (106) orthogonal to the rotation axis and rotates around the rotation axis, a filter (110) that is arranged adjacent to the filter (102), includes a third surface (115) and a fourth surface (116) in a spatial relationship of point-symmetry to the first surface (105) and the second surface (106) about a point on the rotation axis between the filters, and rotates in an opposite direction of the filter (102) around the rotation axis.
An optical scanner includes: a movable section which has a light reflecting member with a light reflecting surface and which is rotatable around the central axis of rotation; at least a pair of movable beams extending from the movable section along the light reflecting surface; a displacement section which is connected to the movable beams and has a through hole including two fixed surfaces crossing each other; two driving beams which extend from the displacement section along a surface direction of the light reflecting surface so as to be perpendicular to the movable beams; a support section connected to each of the driving beams; a driving section which drives the displacement section; and a permanent magnet which is inserted in the through hole and is fixed to the two fixed surfaces.
A second chromaticity value feature is corrected and approximated to a first chromaticity value feature, a new limit value for an ink amount is determined based on the second chromaticity value feature after the approximation, optimization is performed by designating an ink amount which is equal to or less than the newly determined limit value when an ink amount reproducing a hue value represented by a lattice point is determined by the optimization of the ink amount with the use of an object function for evaluating image quality when the designated amount of ink is made to adhere to a first print medium, the ink amount determined by the optimization is converted with a conversion relationship based on the first chromaticity value feature and the second value chromaticity feature.
An image processing apparatus including: a determining unit that performs determination so as to determine a color mode of a target image in a color mode order, in a page unit; and a subtracting unit that calculates a subtraction total number of pixels, wherein, the determining unit performs the determination of a first color mode in the color mode order based on a pixel ratio of a number of pixels of the first color mode in the color mode order to a total number of pixels, and the determining unit performs the determination of the second or subsequent color mode in the color mode order based on a pixel ratio of a number of pixels of the second or subsequent color mode in the color mode order to the subtraction total number of pixels calculated by the subtracting unit.
A plurality of touch switches includes a first switch and a second switch provided adjacent to each other. A distance between an electrode and a surface of a cover at the location of the first switch is smaller than a distance between an electrode and the surface of the cover at the location of the second switch.
An edge refinement system includes a computer-readable medium encoded with a computer program having computer readable code for identifying carrier cells among shadow cells and highlight cells of a segmented image, computer readable code for determining if a predetermined edge condition is met by each of the identified carrier cells, and computer readable code for re-classifying the carrier cell as a non-carrier cell when the predetermined edge condition is met. The edge refinement system further includes memory and a processor operatively coupled to the memory and to the computer-readable medium.
A print data processing system includes a print data interpretation processing unit, a memory, and a raster image data generation unit. The print data interpretation processing unit interprets PDL print data, and generates first intermediate format data, second intermediate format data, and attribute information. The memory stores the first intermediate format data and first raster image data of each image object of a predetermined type. The first raster image is generated by performing a drawing process on the first intermediate format data. When an image object of the predetermined type and another image object overlap, the raster image data generation unit uses the first intermediate format data to generate second raster image data. When an image object of the predetermined type and another image object do not overlap, the raster image data generation unit uses the first raster image data to generate the second raster image data.
Techniques are described for automatic print image matching (PIM) parameter extraction. An original image is captured and PIM parameter data is extracted automatically based on specifics of the original image. At least one automated PIM parameter is calculated automatically from the PIM parameter data. At least one automated PIM parameter is inserted in PIM header information for communication to a rendering device to modify the original image when rendered.
An image forming apparatus is disclosed, in which the index data of a document data is detected, and based on the particular index data, the contents of each index are displayed. Based on this display, an index is selected and the portion of the document data corresponding to the selected index is printed.
Provided is a tomographic imaging method, which acquires tomographic images of an object to be inspected, based on combined beams respectively acquired by combining reference beams and return beams acquired by irradiating the object to be inspected with a plurality of measuring beams. The tomographic imaging method includes a first step of acquiring the respective combined beams by reflecting information regarding the plurality of measuring beams which is stored in advance and irradiating the object to be inspected with the plurality of measuring beams, and a second step of generating the tomographic images based on the respective combined beams.
Methods and systems for optically characterizing a turbid sample are provided. A structured light beam is impinged on the sample. The sample includes an embedded region. A reflected light image of the structured light beam is detected from the sample. A measured reflectance image of the structured light beam for the sample is determined based on the reflected light image and a reflectance standard. The following parameters are determined: absorption coefficients ÿa, scattering coefficient ÿs and anisotropy factor g of the sample from the reflectance image. A size parameter of the embedded region is estimated based on the absorption coefficients ÿa, scattering coefficient ÿs and/or anisotropy factor g of the sample from the measured reflectance image.
A method for authenticating an object, comprising determining a physical dispersion pattern of a set of elements, determining a physical characteristic of the set of elements which is distinct from a physical characteristic producible by a transfer printing technology, determining a digital code associated with the object defining the physical dispersion pattern, and authenticating the object by verifying a correspondence of the digital code with the physical dispersion pattern, and verifying the physical characteristic.
In a method for multiply exposing at least one substrate coated with a photosensitive layer, a first exposure is carried out in accordance with a first set of exposure parameters on a first projection system (17), and a second exposure is carried out in accordance with a second set of exposure parameters on a second projection system (18) spatially separated from the first projection system (17). The projection systems are integrated in a common projection exposure installation (1). The first exposure can be carried out, for example, with an amplitude mask (6), the second exposure with a phase mask (9). The use of a number of projection systems enables multiple exposure that is performed in parallel and is therefore timesaving.
An immersion exposure apparatus and method exposes a substrate with an exposure beam via an optical element and immersion liquid. A table mounts the substrate. A member is positionable under the optical element. A holding member is arranged to hold the member such that the member is located opposed to the optical element. Each of the table and the member are configured to maintain the immersion liquid below the optical element when located opposed to the optical element. The member is positionable to be away from a position below the optical element when the substrate, mounted on the table, is located opposed to the optical element. The table is movable to be away from below the optical element while the member is held opposed to the optical element.
An immersion lithographic projection apparatus is disclosed in which liquid is provided between a projection system of the apparatus and a substrate. The use of both liquidphobic and liquidphilic layers on various elements of the apparatus is provided to help prevent formation of bubbles in the liquid and to help reduce residue on the elements after being in contact with the liquid.
A lithographic apparatus that includes a substrate table holding a substrate, a projection system configured to project a patterned beam of radiation onto the substrate, a liquid supply system configured to provide a liquid to a space between the projection system and the substrate table, and a ring located such that it covers a gap between the substrate and the substrate table, the ring being in contact with the substrate and with the substrate table.
A hurricane and tornado surface wind pattern disrupter and vehicle barrier has carbon steel plates, each mounting plural used tires. Tires are connected to opposite sides of the mounting plates with bolts, washers and nuts. The bolts extend through sidewalls of the tires or through gripper strips in slots in the plates. Ends of gripper strips hold the tire walls against the plates. Clamps connected to the bolts engage inner walls of the tires and hold the tires against the plates. Lateral edges of the plates are positioned inward from the tires. Downward extensions of the mounting plates are connected to fixed reinforced structures. When the plates are connected to tops of lane dividing jersey wall sections, the plates and tires assemblies form a continuously interrupted wall or ribbon for interference with strong surface wind patterns and for disruption and diminution of the wind forces.
A reflective-electrode-side substrate of a reflective-type liquid crystal panel substrate has a pixel region including a pixel electrode, reflecting part, a light shielding film, and a switching element. A periphery region in the periphery of the pixel region outside of the pixel region includes a driving circuit that includes at least one switching element, and a wiring layer that is electrically connected to the at least one switching element. The switching elements may consist of transistors. This configuration can reduce the amount of light leaking through spaces between pixel electrodes and prevent adverse effects on image quality.
A multi display device is disclosed. The multi display device includes a first display panel, a first frame positioned on a back surface of the first display panel, a first electromagnetic shielding layer including a first portion positioned on a front surface of the first display panel and a second portion positioned on the side of the first display panel, a second display panel positioned adjacent to the first display panel, a second frame positioned on a back surface of the second display panel, and a second electromagnetic shielding layer including a first portion positioned on a front surface of the second display panel and a second portion positioned on a side surface of the second display panel.
An exemplary liquid crystal display (LCD) includes a casing and a liquid crystal panel accommodated in the casing. The casing includes a frame and a window surrounded by an inner side of the frame. The liquid crystal panel includes an outside surface essentially serving as a display screen for displaying images and a peripheral wall. The liquid crystal panel is attached to the frame, with the inner side of the frame contacting the peripheral wall of the liquid crystal panel, and the display screen exposed outside of the casing.
A stereoscopic image display device includes a display panel; a plurality of display alignment marks disposed along a first edge and a second edge of the display panel, respectively, the first edge being opposite to the second edge, wherein two of the plurality of display alignment marks are disposed at a midpoint along opposite side edges of the display panel; a 3D filter disposed in planar relation to the display panel; and a plurality of filter alignment indicia portions disposed on the 3D filter.
A system for mounting in a vehicle and for reproducing an image at least partially generated by a remote source and shown on a display of the remote source is provided. The system includes a display interface for providing a signal to the display. The system further includes a communications device for mounting in the vehicle and for communicating with the remote source, the communications device configured to receive the image from the remote source. The system yet further includes a processing system operatively coupled to the communications device and the display interface, the processing system configured to provide a representation of the image to the display interface. The system yet further includes a memory device communicably coupled to the processing system and including computer code for controlling the communications device so that the representation of the image provided to the display interface is updated to reflect new images generated and shown on the remote source.
According to one embodiment, a television apparatus includes a housing, a vibration module attached to the housing, a supporting portion which is secured to the housing and supports the vibration module for vibration, and an oscillation unit which causes the vibration module to vibrate. In addition, the television apparatus includes a plurality of first projections protruding from one of the vibration module and the housing toward the other, a sheet spanning between respective distal end portions of the first projections, and a plurality of second projections provided on the other of the vibration module and the housing and abutting the sheet at positions between the first projections.
The present invention includes an apparatus for distributing a received modulated RF signal to a plurality of tuners including a diplexer device. The diplexer device includes a plurality of filter circuits adapted to direct respective portions of the received modulated RF the signal to respective tuner devices. In an illustrated embodiment, the tuner devices supply tuned signals to a picture in picture display device. Also disclosed is a method of receiving a modulated ready of frequency signal and routing portions of the received signal to respective tuner devices using filter devices in a diplexer or multiplexer configuration.
A video signal processing apparatus includes: an enhancement gain generating section obtaining an enhancement gain for each pixel based on an luminance signal forming part of an input video signal and a predetermined enhancement gain; and an enhancing section performing a process of enhancing the luminance signal forming part of the input video signal based on the enhancement gain. The enhancement gain generating section includes a mean deviation calculating portion obtaining a mean deviation of luminance values of pixels included in a predetermined region centered at a pixel of interest that is the pixel for which the enhancement gain is to be obtained, a weighting coefficient generating portion generating a weighting coefficient for the pixel of interest according to the value of the mean deviation, and a multiplication portion multiplying the predetermined enhancement gain by the weighting coefficient to obtain the enhancement gain for the pixel of interest.
An imaging apparatus includes an imaging unit configured to output an image signal, a detection unit configured to detect a coordinate of a contact position of an instructing body with respect to a display unit which displays an image based on the image signal, and a control unit configured to acquire a starting point coordinate of a starting point which is a position where the instructing body comes into contact with the display unit and an end point coordinate of an end point which is a position where the instructing body loses contact with the display unit and, when the starting point coordinate or the end point coordinate is not at an end portion of a screen of the display unit, cause imaging assist information to be displayed in the display unit such that the imaging assist information reaches at least two end portions of the screen.
A method for manufacturing an imaging device is provided. The method comprises forming a contact pad over a semiconductor substrate. The contact pad has a malleable metal. The method further comprises providing a readout circuit having a first side and a contact plug. The contact plug has a base affixed to the first side of the readout circuit and a plurality of prongs extending from the base away from the first side. The first side of the readout circuit is moved towards the substrate so that the prongs of the contact plug are pressed into the pad and displace a portion of the pad into a space defined by and between a first and a second of the prongs. Stop elements formed over the substrate are aligned with and contact stop elements provided on the readout circuit so that the prongs are inhibited from passing completely through the contact pad.
Foreground and background regions of a digital image of a scene are distinguished from each other automatically. Foreground objects are identified in a binary image map that distinguishes between foreground pixels and background pixels. From the foreground objects, a primary foreground object is identified. Within the identified primary foreground object, a head region of the primary foreground object is located. Within the head region, patterns of foreground pixels and background pixels that are indicative of a head crown region are identified. Within the head crown region, pixels identified as background pixels that actually show portions of the primary foreground object are converted to foreground pixels, thus improving the accuracy of the binary image map.
Images captured at a venue and relating to one or more patrons of the venue are incorporated into one or more products in accordance with image selections and/or product selections made by the patron(s). The images may be captured at venues with a variety of image capture devices such as pre-mounted cameras, cell phones, cameras brought by patrons to the venue, or cameras provided to patrons by the venue or another entity. The patrons may obtain products such as T-shirts, coffee mugs, prints, slideshows, or other products incorporating one or more selected images. Patrons may also view the images on portable electronic devices.
When a displacement between a reference frame of a plurality of images acquired by continuous image pickup and a target frame is less than a first threshold indicating that such a frame is not likely to be affected by occlusion, smoothing is performed on an object area through a morphological operation with a normal process amount. Conversely, when a displacement between the reference frame of the plurality of images acquired by continuous image pickup and a target frame is larger than or equal to the first threshold, smoothing is performed with the process amount of morphological operation being increased with respect to the normal process amount.
A flexible wiring board mounting structure of an image shake correcting apparatus, the image shake correcting apparatus includes a image sensor serving as a part of a photographing optical system and capable of moving in directions orthogonal to an optical axis of the photographing optical system, a control circuit mounted to an element independent of the image sensor, and a flexible wiring board which connects the image sensor and the control circuit to each other. The flexible wiring board includes an inner side connecting portion connected to the image sensor, an outer side connecting portion connected to the control circuit, and a flexible portion provided in an allowance space defined between the inner side connecting portion, the outer side connecting portion, the image sensor and an inner peripheral surface of an innermost ring member, out of ring members that support lens groups of the photographing optical system.
A computer-implemented method of controlling electronics is performed at an apparatus that includes one or more processors, a camera, and a transmitter. In the method, the camera acquires a first image of one or more electronic devices configured for remote control. A database is queried for information regarding the one or more electronic devices, based on the first image. In response to querying the database, the information regarding the one or more electronic devices is received. This information includes specifications for communicating with the one or more electronic devices. User input is received corresponding to a command for a respective electronic device of the one or more electronic devices. In response to the user input, an instruction corresponding to the command is transmitted to the respective electronic device via a signal generated by the transmitter in accordance with the specifications for communicating with the respective electronic device.
A liquid crystal shutter includes a plurality of liquid crystal layers arranged in a light-incident direction; and a plurality of polarizers attached to each of the plurality of liquid crystal layers, polarization axes of 2 adjacent polarizers that have a liquid crystal layer therebetween being crossed at an angle of 90°, the accumulated value of degrees of polarization of polarizers that have polarization axes in a first direction being identical to that of degrees of polarizations of polarizers that have polarization axes in a second direction that crosses the first direction at an angle of 90°.
Methods and systems for generating video from panoramic images using transition trees are provided. According to an embodiment, a method for generating a video from panoramic images may include receiving a transition tree corresponding to a current panoramic image from a server. The method may also include determining a path of the transition tree to a next panoramic image based on a user navigation request. The method may further include requesting and receiving a video chunk from the server for each edge of the determined path of the transition tree. The method may also include displaying the requested video chunks in sequence according to the transition tree. According to another embodiment, a system for generating a video from panoramic images may include a transition tree module and a video display module.
An image display device for special uses which improves a color resolution of a particular color and increases a color reproducibility is provided. In the image display device, an area in which a gradient is gentle is provided to a partial region of a gamma curve denoted by a relationship of an input value (gray level) and an output value (luminance relative value) so that chromaticity points on chromaticity coordinates are unevenly distributed, thereby improving a chromatic resolving power (color resolution) of a particular color. In this manner, the color reproducibility of special monitors which display images of a particular color range represented by a monitor for remote metical care and a monitor for surgical operation can be improved.
A real-time method for producing an animated performance is disclosed. The real-time method involves receiving animation data, the animation data used to animate a computer generated character. The animation data may comprise motion capture data, or puppetry data, or a combination thereof. A computer generated animated character is rendered in real-time with receiving the animation data. A body movement of the computer generated character may be based on the motion capture data, and a head and a facial movement are based on the puppetry data. A first view of the computer generated animated character is created from a first reference point. A second view of the computer generated animated character is created from a second reference point that is distinct from the first reference point. One or more of the first and second views of the computer generated animated character are displayed in real-time with receiving the animation data.
Rendering glyphs is disclosed. A set of glyphs to be flowed along a nonlinear path are received. A first glyph included in the set is placed at a corresponding location along the nonlinear path such that the first glyph is spaced from a second glyph, at a point nearest the second glyph, by at least a prescribed distance.
System and methods for rendering interior surfaces of a 3D volumetric object to be viewed from an external viewpoint. Image data sets being representative of a 3D volumetric object are processed to render image surfaces of the 3D volumetric object. The rendered image surfaces are transformed to allow viewing of internal surfaces of the 3D volumetric object from the perspective of the external viewpoint. The transformations involve inverting at least one of a normal vector, a winding order, and a z-order of a plurality of polygon members making up the rendered image surfaces. The transformations may further involve modifying a transparency parameter of a subset of the plurality of polygon members.
To provide an image processor that is capable of presenting images in which a character object is moved smoothly and naturally as a user intends it to be, regardless of the change in shape of an object.An image processor 1 according to the present invention includes an object behavior control section 31 for controlling an object and movement of a character object in a virtual 3D space, the character object being capable of being moved in the virtual 3D space according to an operation by a user, the object being made up of one or more polygons in the virtual 3D space; a character location determination section 34 for identifying the shape of such a part of the object that is close to the character object, according to the shape of the object and the location of the character object obtained as a result of movement control; and a character location/orientation correction section 35 for correcting the location and orientation of the character object relative to the object, according to the result of identification by the character location determination section 34.
A light waveguide has a rectangular plate shape and is configured to totally reflect internal light arriving at an angle greater than a critical angle. Light emitting parts are disposed at corners of the light waveguide. Each of the light emitting parts emits light once in a period. A first light receiving part is disposed along a first side surface of the light waveguide, and receives light emitted from the light emitting parts adjacent to a second side surface facing the first side surface of the light waveguide. The second light receiving part is disposed along the second side surface of the light waveguide, and receives light emitted from the light emitting parts adjacent to the first side surface. A detecting part detects a touch position based on an amount of the light received by the first and second light receiving parts.
Electronic devices may use touch pads that have touch sensor arrays, force sensors, and actuators for providing tactile feedback. A touch pad may be mounted in a computer housing. The touch pad may have a rectangular planar touch pad member that has a glass layer covered with ink and contains a capacitive touch sensor array. Force sensors may be mounted under each of the four corners of the rectangular planar touch pad member. The force sensors may be used to measure how much force is applied to the surface of the planar touch pad member by a user. Processed force sensor signals may indicate the presence of button activity such as press and release events. In response to detected button activity or other activity in the device, actuator drive signals may be generated for controlling the actuator. The user may supply settings to adjust signal processing and tactile feedback parameters.
A system and method for detecting at least two-finger input on a touch screen of a display such as computer, etc. includes a display screen; a sensing grid arranged for sensing touch on said display screen; a plurality of electrodes connected electrically to the sensing grid. A controller receives an output from the sensing grid, and a module identifies at least two points on the grid indicating locations of the display screen that have been touched by a user and identifies a geographic portion of the display screen to be identified based on said at least two points. As the position of the fingers are relative to the position of the screen via change in a direction of a Z-coordinate, a variable zoom can be provided by the sensing grid commensurate with different distances that the multiple fingers are sensed from the display screen.
A shift register which is capable of minimizing a spike voltage is disclosed. The shift register includes a plurality of stages, each including a plurality of nodes, a scan pulse output unit controlled according to voltages at the nodes for outputting a scan pulse and supplying it to a corresponding gate line through a scan output terminal, a carry pulse output unit controlled according to the voltages at the nodes for outputting a carry pulse and supplying it to an upstream stage and a downstream stage through a carry output terminal, a node controller for controlling voltage states of the nodes in response to a carry pulse from the upstream stage and a carry pulse from the downstream stage, and a discharging unit connected to any one of a plurality of clock transfer lines and the scan output terminal for discharging a spike voltage of the scan output terminal.
A data driver IC of a liquid crystal display is provided. The data driver IC includes: a shift register; a latch part in which input digital data are sampled by the shift register and stored, the latch part including a plurality of latches; a digital to analog converter and an amplifier for converting the sampled digital data into an analog signal and amplifying the analog signal; an analog signal supplying part for generating first and second analog voltages corresponding to a black signal level and a white signal level, respectively; a color conversion control signal supplying part for controlling whether to display the input digital data in full colors or 8-bit color; a selector for selecting and outputting one of the first analog voltage corresponding to the black signal level and the second analog voltage corresponding to the white signal level; and a multiplexer for receiving the output analog signal and transferring the output analog signal to a corresponding data line.
A display is disclosed having crossover connections effecting polarity inversion. The display includes a panel comprising a subpixel repeating group having an even number of repeating subpixels in a first direction. The display also includes a driver circuit coupled to the panel to provide image data signals effecting polarity inversion to the panel. The display also includes a plurality of crossover connections from the driver circuit to the columns of the panel such that polarities of same color subpixels in the first direction alternate at a spatial frequency sufficient to abate undesirable visual effects on the panel when an image is displayed thereon; each crossover connection applying the same polarity to each subpixel in the column.
A liquid crystal display having specific dispositions of pixels of a liquid crystal display so as to prevent the coupling defect and the stripe defect in high speed driving. The liquid crystal display includes a plurality of pixels arranged in a matrix shape, a switching element connected to each pixel, data lines and gate lines connected to the switching elements, and a data driver generating data voltages and applying the data voltages to the data lines. The data lines are disposed at both sides of the pixels in pairs, and data voltages of the same magnitude with different polarities are applied to the pairs of data lines. In this manner, preventing the coupling defect and the stripe defect, high speed driving can be performed.
A semiconductor integrated circuit including a first register which latches display data, a second register which latches the display data of the first register in accordance with a first clock, a gray scale voltage generator which outputs a plurality of gray scale voltages, a decoder which selects a gray scale voltage in accordance with the display data of the second register from the plurality of gray scale voltages, and an amplifier including a first transistor and a second transistor. A first terminal of the first transistor and a first terminal of the second transistor are connected to a first voltage line, and the gray scale voltage outputted from the decoder is supplied to one of input terminals of the first transistor and the second transistor in accordance with a control signal. A phase of the control signal is reversed at intervals of two horizontal scanning lines.
A proposition is to provide a wearable display suitable for enjoying contents including images by plural users simultaneously. To realize the proposition, the wearable display provides an external output unit outputting a signal having the same contents as a signal input to a device to an external device, at an exterior part of an apparatus body including the device making information of contents including images into a state capable of being sensed by a user, and mounting fixtures mounting the device on a head portion of the user.
A mobile communication base station antenna has a first array antenna and a second array antenna. Antenna elements of the first and second array antennas are classified into the first, second and third groups G1, G2 and G3. A first feeding port is connected to the antenna elements in the odd number groups (the first group G1 and the third group G3) of the first array antenna and the antenna elements in the even number group of the second array antenna. On the other hand, a second feeding port is connected to the antenna elements in the even number group (the second group G2) of the first array antenna and the antenna elements in the odd number groups (the first group G1 and the third group G3) of the second array antenna.
A system, apparatus and method are provided for location detection using GPS or WiFi/WiMAX. The apparatus includes a global positioning system (GPS) receiver, a transceiver, and a controller. The transceiver is a WiFi or WiMAX transceiver. The controller determines whether GPS location sensing is possible and, if so, receives geographical location data from the GPS receiver. If GPS location sensing is not possible, the controller determines whether location sensing via the transceiver is possible and, if so, receives geographical location data from the transceiver. The controller sends a signal based on the location data to a location monitoring application via the transceiver. The controller may send a signal to the location monitoring application that no location sensing is possible.
A determining method and apparatus thereof for a transition point of a sequence which can be applied to a decoder. The determining method determines the transition point of the sequence having N numbers, wherein the sequence is composed of a first value and a second value and N is a positive integer. The determining method includes determining the position the first value appearing consecutively in the sequence to determine a first interval; determining the position the second value appearing consecutively in the sequence to determine a second interval; and determining the longer interval between the first interval and the second interval, when the first interval is longer, determining an adjacency of the first interval and the second value as the transition point according to the first interval, and when the second interval is longer, determining an adjacency of the second interval and the first value as the transition point.
A system for communication in an oil and gas well, the system including a controller, a first universal wireless adapter (UWA) wirelessly coupled to the controller, where the UWA is coupled to a first field device, a second UWA wirelessly coupled to the controller, where the UWA is coupled to a second field device, where the controller passes a control token among the first and second UWAs based upon communication traffic between the first and second UWA and the first and second field devices respectively. In some embodiments, this control token may be passed between the first and second UWAs depending upon communications between the respective UWAs and their field devices. For example, in the event that communication traffic is greater between the first UWA and the first field device, then the control token is passed to the first UWA.
A system for monitoring the fermentation process in connection with ensilage of fodder (1) comprises a sensor device (3) arranged in the fodder during the ensilage thereof and a monitoring device (11) operatively connected to the sensor device during the ensilage. The sensor device (3) comprises at least one sensor (3a-c) provided for repeatedly measuring the content of at least one chemical substance in the fodder, which is affected by the fermentation process. The monitoring device comprises receiving means (12) provided for receiving the repeatedly measured values of the content of the chemical substance; processing means (13) provided for comparing the repeatedly measured values with reference values of the content of the chemical substance; and notifying means (14-16) provided for notifying a farmer (17) depending on the outcome of the comparison of the repeatedly measured values and the reference values.
Apparatus and methods for alerting persons of obstacles and/or approaching hazards are provided. Embodiments may include a warning system that includes a radio source configured to transmit a radio signal and a warning device. The warning device may include at least one vibration device, at least two receiver devices configured to receive the radio signal, and a processing device operably coupled to at least two receiver devices and at least one vibration device, wherein the processing device is configured to determine at least a direction and a distance to the radio source from the warning device and configured to transmit a vibration signal to at least one vibration device based upon the determined direction and distance to the radio source from the warning device.
A driving assist apparatus includes: an image obtaining unit that obtains a peripheral image of a vehicle, which is captured by an image capturing device provided in the vehicle; a display device that is provided in the interior of the vehicle and displays the peripheral image; a display object generation unit that generates a display object including an index line serving as an index for assisting a driver who drives the vehicle; a vehicle state detection unit that detects at least one of behavior of the vehicle and a state of a driving operation; a display type determining unit that determines a transparent display type of the display object based on the detection result of the vehicle state detection unit; and a display control unit that superimposes and displays the display object on the peripheral image, which is displayed on the display device, based on the determined transparent display type.
A rear-view camera system for a vehicle. The rear-view camera system includes a first camera positioned on a rear side of the vehicle. The first camera produces a first data set that includes image data corresponding to a first field of view. A second camera is positioned on the rear side of the vehicle spaced a horizontal distance from the first camera. The second camera produces a second data set that includes image data corresponding to a second field of view. The first field of view and the second field of view cover a space adjacent the rear side of the vehicle. An electronic control unit receives the first data set and the second data set and processes the first data set and the second data set to determine the presence of an object in the space adjacent the rear side of the vehicle. The electronic control unit is configured to stitch the first data set and the second data set to produce a panoramic image that corresponds to the space adjacent the rear side of the vehicle. A human-machine interface includes a viewing screen positioned adjacent an operator of the vehicle, and the human-machine interface is configured to receive the panoramic image and display the panoramic image on the viewing screen.
There is provided an information processing system that includes an information processing terminal equipped with an IC chip capable of non-contact communication with a reader/writer, a data provider device that stores a first data record for creating service data, and a control information processing device that creates the service data and transmits the service data to the information processing terminal. The information processing terminal includes a terminal communication portion that acquires the first data record from the data provider device and transmits the first data record to the control information processing device. The control information processing device includes a control communication portion that receives the first data record, a control storage portion that stores a second data record for creating the service data, and a data creation portion that creates the service data based on the first data record and the second data record.
The invention relates to a thermal fuse in a circuit structure, particularly a punched grid, having a plurality of circuit areas, having the circuit structure with connections sites (9) and having a fusible element (3), which is electrically and mechanically connected to the connection sites (9) of the circuit structure, a material of the fusible element (3) having a melting point, in order to melt at an ambient temperature greater than the melting point, such that material of the fusible element (3) collects at the connection sites (9) and the electrical connection formed by the fusible element (3) breaks.
A waveguide structure including (i) a base that has a mounting surface, (ii) a metal plate member that has elasticity, that is stacked on the mounting surface, and that functions together with the base to constitute a waveguide, (iii) a positioning mechanism that is constituted by a positioning pin that is disposed so as to protrude from the base and an interfitting portion that is formed on the plate member, and that is fitted together with the positioning pin, the positioning mechanism positioning the plate member on the mounting surface of the base and also restricting movement along the mounting surface by fitting together of the positioning pin and the interfitting portion, and (iv) a holder that holds the plate member in a state of close contact with the mounting surface by pressing the plate member so as to generate a reaction force in the plate member.
The PWM control circuit is provided. The PWM control circuit includes: a PWM control signal generator that generates a PWM period signal defining a period of a PWM signal and a PWM resolution signal specifying a resolution in one period of the PWM period signal; and a PWM unit that generates the PWM signal based on the PWM period signal and the PWM resolution signal, wherein the PWM control signal generator changes a frequency of the PWM resolution signal while keeping a frequency of the PWM period signal unchanged.
A system and method for effectively performing a clock signal distribution procedure includes a clock generator configured to generate one or more clock signals that include electronic timing information. A clock load utilizes the electronic timing information from the clock signals to synchronize appropriate system processes. Capacitive coupling means are provided in a series configuration for transferring the clock signals from the clock generator to the clock load in accordance with an alternating-current direct-drive technique.
There is provided a power amplifier including an amplifying unit having at least two cascode amplifiers connected in parallel to amplify an input signal; and a bias supply unit supplying bias power to a common gate node of the two cascode amplifiers, and removing a signal of a pre-set frequency band corresponding to a baseband at the common gate node by controlling impedance of the common gate node.
To provide an envelope tracking type amplifier that has high efficiency and small fluctuations, an output unit supplies an output signal that is adjusted corresponding to an input signal to a power supply terminal of the amplifier. The output unit includes an analog amplifying circuit that amplifies the input signal; a digital circuit that selectively outputs a first voltage or a second voltage that is lower than the first voltage; and first and second output circuits. The first output circuit includes a first integrating circuit that integrates an output signal of the digital circuit; and a combining section that combines an output signal of the first integrating circuit and an output signal of the analog amplifying circuit and outputs the combined signal to a power supply terminal of the amplifier. The second output circuit includes a second integrating circuit that integrates the output signal of the digital circuit; a resistor having two ends, one end being connected to an output terminal of the second integrating circuit, the other end being connected to an output terminal of the analog amplifying circuit; and a load connected to the output terminal of the second integrating circuit. The digital circuit outputs the first voltage where a voltage applied at the one end of the resistor is lower than the voltage applied at the other end of the resistor and the digital circuit outputs the second voltage when the voltage applied at the one end of the resistor is higher than the voltage applied at the other end of the resistor.
An amplifier circuit includes an amplifier and a noise suppression block. The amplifier is arranged for receiving an input signal at an input port and generating an output signal at an output port according to the input signal. The noise suppression block is coupled between the input port and the output port of the amplifier, and arranged for receiving the input signal and the output signal and applying noise suppression to the output signal generated from the amplifier according to the received input signal and the received output signal.
Embodiments disclosed in the detailed description relate to a pseudo-envelope follower power management system including a parallel amplifier and a switch mode power supply converter cooperatively coupled to generate a power supply voltage at a power supply output coupled to a linear RF power amplifier. The parallel amplifier output is in communication with the power amplifier supply output. The parallel amplifier governs operation of the switch mode power supply converter and regulates the power amplifier supply voltage base on a VRAMP signal. The parallel amplifier circuit includes an open loop high frequency compensation assist circuit that generates a high frequency ripple compensation current based on an estimate of the high frequency ripple currents contained in a ripple current of the power inductor. The high frequency ripple compensation current is injected into the parallel amplifier circuit output to cancel out high frequency ripple currents at the power amplifier supply output.
This application describes a system for minimizing the common mode voltage drift at the input of a fully differential amplifier. An impedance component is coupled to the inputs and outputs of the differential amplifier. The impedance component optimizes the common mode resistance or impedance to ground without significantly affecting the differential impedance, matches the input common mode voltage to the output common mode voltage and reduces the input common mode voltage drift in presence of leakage currents.
The device described herein proposes an electronic active filter void of capacitors and inductors. The circuit utilizes only operational amplifiers (OP-Amp) and resistors, hence the name Op-R. Although capable of being constructed of lumped circuit elements this filter is intended for integrated circuit (IC) applications. Filtering of signals can be accommodated from dc through the UHF frequency range depending on the selected op-amp ICs. Low pass, band pass, high pass, as well as band reject frequency responses are achievable. Although the circuits described herein are single input-single output, multiple inputs and outputs present no difficulty, being limited only chip space. Temperature and production spread variations are also considered within the realm of tenability.
A semiconductor device includes a boosting circuit that boosts an internal power supply voltage in a boosting range according to an external power supply voltage, an external voltage-level comparison circuit that compares the external power supply voltage and a predetermined reference voltage, and a variable resistor circuit that includes a variable resistor connected to an output terminal of the boosting circuit. The variable resistor circuit controls a resistance value of the variable resistor based on a comparison result of the external voltage-level comparison circuit.
A clock distribution system for a multi-bit latch. The clock distribution system may include a plurality of branches, each connected to a common clock input. Each branch may be driven by an input clock buffer. Each branch may be connected to clock inputs of a predetermined number of latch stages within the multi-bit latch. A predetermined number of clock branches may include a clock output buffer. The number of clock output buffers may be less than the total number of latch stages. In this manner the clock distribution system may reduce the feed through capacitance of the latch stages, which may mitigate the latch transition skew for each latch stage.
Output driver feedback circuitry is configured to sense an amount of output capacitance of an output pad and to adjust the strength of the output driver accordingly. The feedback circuitry adjusts the output driver within a single cycle. A chain of delay reference signals is generated by representative capacitive loads that replicate a range of actual output loads. Adjustments to the output driver are based on a comparison of the delay reference signals with output of the output driver.
When a first sub-circuit of a programmable integrated circuit (“IC”) is to be deactivated, a global write enable (GWE) signal is deasserted. In response to deassertion of the GWE signal and a first memory cell associated with the first sub-circuit being in a first state, flip-flops in the first sub-circuit are disabled from changing state. In response to memory cells associated with sub-circuits other than the first sub-circuit being in a second state, flip-flops in the other sub-circuits are enabled to change state. When the first sub-circuit is to be activated, the GWE signal is asserted. Logic implemented by the first sub-circuit is preserved between the deasserting and the asserting of the GWE signal. In response to assertion of the GWE signal and the first memory cell associated with the first sub-circuit being in the first state, flip-flops in the first sub-circuit are enabled to change state.
A capture clock generation control mechanism is provided. The capture clock generation control mechanism controls the number of at-speed clocks generated and supplied to one or more scan chains during scan testing of a microcircuit based on control data stored in a JTAG or scan test register. The scan test register may be formed out of scan cells and comprise part of a scan chain. Automatic Test Pattern Generation (ATPG) tools may generate the data that is loaded into the scan test register to automatically configure the clock generation control mechanism. The clock control mechanism may include the ability to adjust the position of the at-speed clocks within a capture cycle, thereby facilitating transition fault detection.
An automated electronics circuit test cassette assembly is provided for mating with a test platform. The platform comprises a platform common signal interface and a vacuum manifold having a combined registration and vacuum port coupler. The cassette assembly includes a cassette common signal interface providing electrical communication with the platform common signal interface and an alignment bushing providing combined registration and vacuum communication with the vacuum port coupler. A pattern of test probes mimic a test pattern on a printed circuit assembly (PCA), extending upwards from a probe support substrate and optionally downward from a clamshell probe substrate. The PCA is supported by a PCA support substrate floating above the test probe support substrate. The clamshell test substrate provides a vacuum seal above the PCA support substrate. Testing is completed by applying a vacuum, which draws the probes against the PCA, and applying testing signals through electrical connections created therebetween.
A current calibration method and the associated control circuit are provided. The method includes: providing a predetermined voltage to the differential output for obtaining an accurate current passing through the panel resistor during a calibration procedure and, providing a driving current to the differential output according to the accurate current during a normal operation procedure.
A magnetic resonance coil testing arrangement includes an electric circuit for emulating an electrical load to a magnetic resonance coil. The electric circuit is configured to emulate an electrical load corresponding to an electrical load induced by organic tissue at the magnetic resonance frequency of the magnetic resonance coil.
A method for nuclear magnetic resonance (NMR) spectroscopy of a sample involves excitation of long lived coherences (LLC) between the singlet state S0 and the central triplet state T0 of nuclei of the sample by initiating irradiation of the sample with an rf-field with carrier frequency ωrf; sustaining of the LLC by maintaining the rf-irradiation during an interval τ2; converting the LLC temporarily into observable magnetization by interrupting the rf-irradiation during an observation interval τ3; detecting NMR-signals during the observation interval τ3 and reconversion of the observable magnetization back into LLC after the observation interval τ3. These steps are repeated n times, wherein n is a positive integer. The method allows ultra high-resolution spectra of long-lived coherences to be obtained.
A magnetic resonance imaging (MRI) system, comprising: a magnetic resonance imaging scanner comprising: a main magnet providing a substantially uniform main magnetic field B0 for a subject under observation; and a radio frequency (RF) coil configured to irradiate a radio frequency (RF) pulse into a region of interest of the subject under observation, wherein the RF pulse comprises a base pulse comprising an adiabatic pulse having a first bandwidth time product (BWTP), wherein the RF pulse selectively suppresses magnetic resonance signals from more than one chemical component or more than one spatial region within the region of interest of the subject under observation, and wherein the adiabatic pulse is characterized by an amplitude modulation function and a frequency modulation function.
According to one embodiment, a magnetic resonance imaging apparatus includes; a data collection unit which collects magnetic resonance data from a patient by a half Fourier method using a plurality of coils; an unfolding unit which performs an unfolding process on a plurality of items of folded image data obtained from the plurality of coils to generate unfolded image data by using sensitivity data of the plurality of coils; and a data processing unit which repeatedly performs a data filling process and a phase correction process to improve accuracy of data in an unsampled region to generate image data for display, the data filling process filling the unsampled region in k-space with k-space data obtained by Fourier-transforming the unfolded image data and the unsampled region being a region for which the data have not been collected.
The integrated magnetic sensor for detecting an external magnetic field, is formed by a body of semiconductor material having a surface; an insulating layer covering the body of semiconductor material; a magnetically sensitive region, for example a Hall cell, extending inside the body; and a concentrator of ferromagnetic material, extending on the Hall cell and having a planar portion extending parallel to the surface of the substrate on the insulating layer. The concentrator terminates with a tip protruding peripherally from, and transversely to, the planar portion toward the Hall cell. When the magnetically sensitive region is a sensing coil of a fluxgate sensor, it is formed on the substrate, embedded in the insulating layer, and the tip of the concentrator can reach as far as the sensing coil.
The invention concerns a system for measuring the alignment error of two axles provided with a first and a second coupling part by means of a biaxial orthogonal magnetic sensor system comprising a sensor and a magnet, wherein said sensor is designed to be placed on the first coupling part with its one direction of sensing oriented in one direction of magnetization of said magnet, which magnet is designed to be placed on the other coupling part and means for reading off an angle error and offset error independently of each other during the rotation of the axles on-line. The system moreover includes a reference sensor for determining said angle error and offset error orientation relative to a known direction.
A switching power supply controller which includes at least one switching element, and controls a switching cycle during which the switching elements are switched on and off to regulate the power supply's output voltage. The controller has a feedback signal which represents the output voltage, and a circuit node which conducts a current that is higher during a second portion of the switching cycle than it is during a first portion, such that the feedback signal varies with the current conducted by the node. To overcome feedback signal inaccuracies, a sampling circuit samples a signal which varies with the feedback signal only during the first portion of the switching cycle; the controller then regulates the output voltage in response to the sampled signal. The sampling circuit may be further arranged to produce an output which approximates the portion of the feedback signal waveform which is not sampled.
A voltage regulator includes a voltage output unit configured to output an output voltage to a voltage output terminal; a first resistance divider configured to regulate a divided resistance value in response to a first series of control signals; and a second resistance divider configured to regulate the divided resistance value, which is determined in the first resistance divider, in response to a second series of control signals. A voltage level of the output voltage output through the voltage output terminal is regulated according to a ratio of the divided resistance value determined through the first resistance divider and the second resistance divider and a resistance value of a reference resistor.
In one general aspect, an apparatus can include a controller, and a power stage coupled to the controller and configured to be coupled to a power source. The power stage is configured to deliver an output voltage to a load module in response to the controller. The apparatus also includes a reference voltage circuit coupled to the controller and configured to be grounded to a first ground voltage different from a second ground voltage associated with the load module.
A video game controller charging system is provided. The video game controller charging system includes a base; at least one structure on the base for providing physical support to at least one video game controller while it is being charged; and at least one DC port on the base configured to couple to and provide DC power to a power input port of the at least one video game controller. The video game controller charging system may also include a current detector, a charging status indicator, at least one docking bay, and/or an AC-to-DC converter adapted to convert externally supplied power to the DC power provided to the power input port of at least one video game controller. The base of a charging station may include a recess having at least one electrical contact and a power input for connection to a power supply.
A method and system are disclosed for controlling electrical current through an inductive load. The electrical current is supplied by one of at least three selectable dual capacitor bank electrical circuits. The method includes storing electrical energy during a charge operating state in first and second capacitor banks of a first dual capacitor bank circuit. The stored electrical energy is then used to drive the inductive load when operating the first dual capacitor bank circuit in a drive operating state. After depleting the stored electrical energy from the first and second capacitor banks, the first dual capacitor bank transitions to a collection operating state that includes collecting electrical energy from the inductive load. A second and third dual capacitor circuits simultaneously transition among the charge operating state, the drive operating state, and the collection operating state during operation.
The present invention relates to a switching operation control device of a power switch, an LED light emitting device including the same, and a control method thereof. The control device detects a zero crossing time when a voltage at an input end of the power switch becomes a zero voltage, generates a reference signal that is synchronized with the voltage at the input end of the power switch by using the detected zero crossing time, and compensates the generated reference signal with a first voltage that is greater than the zero voltage during a blocking period corresponding to the zero crossing time.
A light emitting device package includes a package body; a first light emitting device mounted on the package body and emitting light of a particular color; a second light emitting device mounted on the package body to be adjacent to the first light emitting device, adjusting an amount of light according to a current value applied thereto to thereby control a color temperature, and emitting orange light; and a resin part sealing the first and second light emitting devices and containing at least one or more types of phosphors.
The present invention provides a driving circuit and a driving method of a backlight module of a display apparatus. The driving method comprises the following steps: utilizing a phase detector to detect voltage phases of an inductor and a capacitor of a resonant circuit; utilizing a frequency adjusting module to obtain an operation frequency according to a phase detection signal; and utilizing a driving chip to drive a DC-to-AC power stage circuit according to the operation frequency. The invention can improve the transformation efficiency of the driving circuit.
Systems and methods for controlling an output of a luminaire. The luminaire uses stored spectral information for light sources within the luminaire to determine a coordinate for each light source within a color space. A desired output color is also converted to a coordinate within the color space. The distance between the desired output color coordinate and each of the coordinates corresponding to the light sources is calculated to select initial control values for the light sources. The initial control values for each light source are individually modified by a step size value, the total output of the luminaire is calculated and converted to a coordinate within the color space, and the distance between the total luminaire output coordinate and the desired color coordinate is calculated. The control values for the light sources are iteratively modified until the luminaire output coordinate is within a threshold value of the desired color output.
A resonator element includes: a base part; plural vibrating arms extended from the base part, each having a first principal surface and a second principal surface opposed to each other and a first side surface and a second side surface connecting the first principal surface and the second principal surface and opposed to each other, the first side surface of at least one vibrating arm of the plural vibrating arms having a first step part provided from the first principal surface side and a second step part provided from the second principal surface side; a first electrode provided on the second side surface of the vibrating arm; a second electrode provided in a position opposed to the first electrode of the first step part; and a third electrode provided in a position opposed to the first electrode of the second step part.
A piezoelectric based energy supply includes a multiplicity of mechanical actuators able to be displaced through operation by an operator from a first position and a second position. A multiplicity of independent piezoelectric components is disposed below the multiplicity of actuators. Each independent piezoelectric component within the multiplicity of independent piezoelectric components is associated with at least one respective actuator in the multiplicity of actuators and is adapted to be deformed by displacement of the at least one respective actuator within the plurality of actuators from a first position and a second position. An electrical coupler electrically couples each of the multiplicity of independent piezoelectric components.
A permanent magnet machine includes a stator having a stator core, a plurality of stator teeth and plurality of stator windings coupled to the stator core. The stator is configured to generate a stator magnetic rotating field when the stator windings are excited with an electric current. The stator magnetic rotating field includes both synchronous sub-harmonic and super-harmonic components. The permanent magnet machine also includes a rotor that is disposed within the stator. The rotor includes a rotor core and a plurality of rotor magnets that are coupled to the rotor core. The rotor magnets are further configured to have a predefined orientation profile such that when the stator windings are excited with an electric current, sub-harmonic and super-harmonic magnetic rotating fields are generated in the rotor magnetic field. The stator sub-harmonic and super-harmonic magnetic rotating fields interact with the rotor sub-harmonic and super-harmonic magnetic rotating fields and produce an aiding torque on in the permanent magnet machine.
A DC motor comprises: a tubular metal case; a magnet that is provided along the inner surface of the metal case and has four or more of magnet poles in the circumferential direction; an armature that is arranged to face the magnet and composed of a core and a coil; and a shaft. The magnet is formed of a material with a maximum energy product BHmax of 3 to 6 MGOe. When the thickness of the magnet in the radial direction of the armature is indicated by T [mm] and the outer diameter of the core is indicated by d [mm], the ratio T/d of the thickness T of the magnet to the outer diameter d of the core is 0.16 or more.
Embodiments of the present invention include a shaft-less energy storage flywheel system. The shaft-less energy storage flywheel system includes a solid cylindrical flywheel having permanent motor magnets mounted about the flywheel. The shaft-less energy storage flywheel system also includes a motor stator having motor windings carrying electrical currents. The motor windings of the motor stator are aligned with the permanent motor magnets of the flywheel such that rotation of the flywheel is induced through interaction of the motor winding currents and the magnetic field of the permanent motor magnets. The flywheel provides a magnetic flux path for the permanent motor magnets. In certain embodiments, the shaft-less energy storage flywheel system includes a magnetic bearing assembly disposed directly adjacent an axial face of the flywheel. The magnetic bearing assembly controls positioning and alignment of the flywheel without physically contacting the flywheel during normal operation.
A filter circuit according to the present invention includes a voltage-current conversion unit that converts a voltage signal input to an input end to a current signal, a capacitor group that is made up of a plurality of capacitors, where the current signal output from the voltage-current conversion unit is sequentially input to each capacitor at every cycle, a first switch that connects a set of capacitors to which the current signal is input with each other and adds charges accumulated in the set of capacitors together, and a second switch that connects at least one capacitor of the set of capacitors to an output end after charges are added by the first switch.
A signal variance sensing power controller is described. The power controller functions by measuring the power consumption of a first device, and detecting fluctuations in the power consumption. The power controller then determines a level of variability, based on measured changes in the first device. Based on the level of variability, the power controller then determines a state of the first device, and influences a second device based on that state.
A central axis water turbine is described which comprises a turbine body having a central axis; a rotor mounted on the turbine body for rotation about the central axis, the rotor comprising a central hub supporting a plurality of blades, each blade extending from a blade root mounted on the hub to a blade tip; a generator driven by the rotor; and a housing surrounding the rotor and adapted to direct water flow towards the rotor, the housing converging from a front opening forward of the rotor to a narrower throat adjacent the turbine body; wherein the blades are splayed rearward from the blade root to the blade tip by a tilt angle of 1° to 20° from a plane perpendicular to the central axis.
An apparatus and method are disclosed for extracting energy from fluid motion. A deformable body adapted to be deformed by fluid motion is arranged to drive at least one energy medium to be delivered to an energy output. The energy medium is controllable in order to control at least one dynamic response of the deformable body.
This invention describes a device for the generation of electric energy from small movements which comprises: a magnet with the shape of a solid of revolution which comprises at least a couple of poles (N, S) placed around an axis of revolution; a tube whose transversal section is complementary to the shape of the magnet, and which comprises a winding rolled transversally around it, with the magnet placed in the interior of the tube so that an inclination of the tube causes the magnet to roll, traveling along the interior of the tube and inducing tension on the winding.
An engine is provided that utilizes an active heat exchanger such as a heat pump to transfer heat into and remove heat from a low boiling point liquid that is disposed in a pair of diametrically opposed containers. The addition of heat into the low-boiling point liquid causes the liquid to move vertically from a bottom container to a top container, transforming the transferred heat energy into potential energy. The top container is allowed to fall under the weight of the transferred liquid, transforming the potential energy to kinetic energy which is used to perform the desired work. The expanding low-boiling point liquid can also be used to advance a magnetic back and forth through a wire coiling to produce an electric current, converting the transferred heat energy into electrical energy. The use of an active heat exchanger such as a heat pump permits the use of one unit of electrical energy to transfer 3 to 5 units of heat energy.
A semiconductor package includes a semiconductor device including a plurality of signal pads and a plurality of auxiliary pads which are alternatively arranged in a predetermined direction, and a package board including a plurality of signal bond fingers, a plurality of first power supply voltage bond fingers, and a plurality of second power supply voltage bond fingers. The signal pads are connected respectively to the signal bond fingers by first wires. The first power supply voltage bond fingers and the second power supply voltage bond fingers are connected respectively to the auxiliary pads by second wires. The first wires are disposed between those of the second wires which are connected to the first power supply voltage bond fingers and those of the second wires which are connected to the second power supply voltage bond fingers.
The semiconductor device has insulating films 40, 42 formed over a substrate 10; an interconnection 58 buried in at least a surface side of the insulating films 40, 42; insulating films 60, 62 formed on the insulating film 42 and including a hole-shaped via-hole 60 and a groove-shaped via-hole 66a having a pattern bent at a right angle; and buried conductors 70, 72a buried in the hole-shaped via-hole 60 and the groove-shaped via-hole 66a. A groove-shaped via-hole 66a is formed to have a width which is smaller than a width of the hole-shaped via-hole 66. Defective filling of the buried conductor and the cracking of the inter-layer insulating film can be prevented. Steps on the conductor plug can be reduced. Accordingly, defective contact with the upper interconnection layer and the problems taking place in forming films can be prevented.
To provide a method for manufacturing a large-area semiconductor device, to provide a method for manufacturing a semiconductor device with high efficiency, and to provide a highly-reliable semiconductor device in the case of using a large-area substrate including an impurity element. A plurality of single crystal semiconductor substrates are concurrently processed to manufacture an SOI substrate, so that an area of a semiconductor device can be increased and a semiconductor device can be manufactured with improved efficiency. In specific, a series of processes is performed using a tray with which a plurality of semiconductor substrates can be concurrently processed. Here, the tray is provided with at least one depression for holding single crystal semiconductor substrates. Further, deterioration of characteristics of a manufactured semiconductor element is prevented by providing an insulating layer serving as a barrier layer against an impurity element which may affect characteristics of the semiconductor element.
An integrated circuit package system with laminate base includes: a base package including: a laminate substrate strip, an integrated circuit on the laminate substrate strip, a molded cover over the integrated circuit and the laminate substrate strip, and a strip test of the base package; a bare die on the base package; the bare die electrically connected to the laminate substrate strip; and the bare die and the base package encapsulated.
A semiconductor device includes a semiconductor substrate including an element region, an inner sealing and an outer sealing which are formed on the element region and have a first opening part and a second opening part, respectively, a multilayer interconnection structure which is formed on the substrate and stacks multiple inter-layer insulation films each including a wiring layer, a moisture resistant film formed between a first inter-layer insulation film and a second inter-layer insulation film which are included in the multilayer interconnection structure, a first portion which extended from a first side of the moisture resistant film and passes the first opening part, a second portion which extended from a second side of the moisture resistant film and passes through the second opening part, and a wiring pattern including a via plug which penetrates the moisture resistant film and connects the first portion and the second portion.
A method is demonstrated to form an SOI substrate having a silicon layer with reduced surface roughness in a high yield. The method includes the step of bonding a base substrate such as a glass substrate and a bond substrate such as a single crystal semiconductor substrate to each other, where a region in which bonding of the base substrate with the bond substrate cannot be performed is provided at the interface therebetween. Specifically, the method is exemplified by the combination of: irradiating the bond substrate with accelerated ions; forming an insulating layer over the bond substrate; forming a region in which bonding cannot be performed in part of the surface of the bond substrate; bonding the bond substrate and the base substrate to each other with the insulating layer therebetween; and separating the bond substrate from the base substrate, leaving a semiconductor layer over the base substrate.
A repairable memory cell in accordance with one or more embodiments of the present disclosure includes a storage element positioned between a first and a second electrode, and a repair element positioned between the storage element and at least one of the first electrode and the second electrode.
A superjunction device that includes a termination region having a transition region adjacent the active region thereof, the transition region including a plurality of spaced columns.
A semiconductor device capable of decreasing a reverse leakage current and a forward voltage is provided. In the semiconductor device, an anode electrode undergoes Schottky junction by being connected to a surface of an SiC epitaxial layer that has the surface, a back surface, and trapezoidal trenches formed on the side of the surface each having side walls and a bottom wall. Furthermore, an edge portion of the bottom wall of each of the trapezoidal trenches is formed to be in the shape bent towards the outside of the trapezoidal trench in the manner that a radius of curvature R satisfies 0.01
The embodiment provides a package structure for a chip and a method for fabricating the same. The package structure for the chip includes a chip having a substrate and a bonding pad structure. The chip has an upper surface and a lower surface. An upper packaging layer covers the upper surface of the chip. A spacer layer is between the upper packaging layer and the chip. A conductive path is electrically connected to the bonding pad structure. An anti-reflective layer is disposed between the spacer layer and the upper packaging layer. An overlapping region is between the anti-reflective layer and the spacer layer.
A method for making a solid-state imaging device includes forming a pinning layer, which is a P-type semiconductor layer or an N-type semiconductor layer, on a first substrate by deposition; forming a semiconductor layer on the pinning layer; forming a photoelectric conversion unit in the semiconductor layer, the photoelectric conversion unit being configured to convert incident light into an electrical signal; forming, on the semiconductor layer, a transistor of a pixel unit and a transistor of a peripheral circuit unit disposed in the periphery of the pixel unit, and then forming a wiring section on the semiconductor layer; bonding a second substrate on the wiring section; and removing the first substrate after the second substrate is bonded.
A magnetic sensor suitable for sensing an external magnetic field includes a magnetic tunnel junction (MTJ) device. The MTJ device is used to sense an out-of-plane (Z-axis) component of the external magnetic field at a perpendicular direction to the MTJ device. The MTJ device includes a first pinned magnetic layer, a tunnel layer and a magnetic sensing layer. The first pinned magnetic layer has a pinned magnetization perpendicular to the first pinned magnetic layer. The tunnel layer is disposed on the first pinned magnetic layer. The magnetic sensing layer is disposed on the tunnel layer. The magnetic sensing layer has a critical thickness set to be within a range having a superparamagnetic property, in which an out-of-plane (Z-axis) magnetic sensitivity is larger than an in-plane (X-axis, Y-axis) magnetic sensitivity. The first pinned magnetic layer, the tunnel layer and the magnetic sensing layer are stacked in a forward sequence or a reverse sequence.
A non-volatile programmable memory cell suitable for use in a programmable logic array includes a non-volatile MOS transistor of a first conductivity type in series with a volatile MOS transistor of a second conductivity type. The non-volatile MOS transistor may be a floating gate transistor, such as a flash transistor, or may be another type of non-volatile transistor such as a floating charge-trapping SONOS, MONOS transistor, or a nano-crystal transistor. A volatile MOS transistor, an inverter, or a buffer may be driven by coupling its gate or input to the common connection between the non-volatile MOS transistor and the volatile MOS transistor.
A stitch area configuration for word gates and control gates of a twin MONOS metal bit array comprises control gates on sidewalls of the word gates wherein the word gates and control gates run in parallel. Control gate poly contacts contact each of the control gates aligned in a row at the stitch area perpendicular to the control gates. Two word gate poly contacts at the stitch area contact alternating word gates. Also provided are bit lines, word line and control gate decoders and drivers, a bit line decoder, a bit line control circuit, and a chip controller to control the memory array. The invention also provides twin MONOS metal bit array operations comprising several control gates driven by one control gate driver circuit and one word gate driven by one word gate driver circuit, as well as erase inhibit and block erase.
An electro-static discharge protection circuit includes: a PNPN junction, a P-type side of the PNPN junction being coupled to a terminal, an N-type side of the PNPN junction being coupled to ground; and a P-type metal oxide semiconductor transistor, a source and a gate of the P-type metal oxide semiconductor transistor being coupled to an N-type side of a PN junction whose P-type side coupled to the ground, and a drain of the P-type metal oxide semiconductor transistor being coupled to the terminal.
A capacitor and a method of manufacturing the same are provided. A dummy capacitor group is formed in the peripheral circuit area and includes a dummy storage node contact unit, a dielectric, and a dummy plate electrode. A metal oxide semiconductor (MOS) capacitor is formed in the peripheral circuit area and connected to the dummy capacitor group in parallel. Capacitance of the dummy capacitor group may be greater than that of the MOS capacitor.
A semiconductor structure having U-shaped transistors includes source/drain regions at the tops of pairs of pillars defined by crossing trenches in the substrate. One pillar is connected to the other pillar in the pair by a ridge that extends above the surrounding trenches. The ridge and lower portions of the pillars define U-shaped channels on opposite sides of the U-shaped structure, facing a gate structure in the trenches on those opposite sides, forming a two sided surround transistor. Optionally, the space between the pillars of a pair is also filled with gate electrode material to define a three-sided surround gate transistor. One of the source/drain regions of each pair extending to a digit line and the other extending to a memory storage device, such as a capacitor. Methods of forming semiconductor structures are also disclosed.
A thin film transistor which may be included in a pixel circuit includes: a substrate; a semiconductor layer formed on the substrate and including a source region, a first drain region spaced apart from the source region by a first current path, and a second drain region spaced apart from the source region by a second current path having a length different from that of the first current path; a gate electrode insulated from the semiconductor layer by a gate insulating layer; a source electrode connected to the source region of the semiconductor layer; a first drain electrode connected to the first drain region of the semiconductor layer; and a second drain electrode connected to the second drain region of the semiconductor layer. Currents having different magnitudes may be simultaneously provided through the first current path and the second current path.
A semiconductor device is provided. The semiconductor device includes: a substrate; device isolation regions formed in the substrate; an impurity region formed in a region of the substrate between every two adjacent ones of the device isolation regions; a gate electrode formed on the substrate; first and second interlayer insulating films sequentially formed on the substrate; a metal interlayer insulating film formed on the second interlayer insulating film and comprising metal wiring layers; a first contact plug electrically connecting each of the metal wiring layers and the impurity region; and a second contact plug electrically connecting each of the metal wiring layers and the gate electrode, wherein the first contact plug is formed in the first and second interlayer insulating films, and the second contact plug is formed in the second interlayer insulating film.
Embodiments of a semiconductor structure include a first current electrode region, a second current electrode region, and a channel region. The channel region is located between the first current electrode region and the second current electrode region, and the channel region is located in a fin structure of the semiconductor structure. A carrier transport in the channel region is generally in a horizontal direction between the first current electrode region and the second current electrode region. A contact extends into the first current electrode region and is electrically coupled to the first current electrode region.
A group III nitride semiconductor device and a group III nitride semiconductor wafer are provided. The group III nitride semiconductor device has a channel layer comprising group III nitride-based semiconductor containing Al. The group III nitride semiconductor device can enhance the mobility of the two-dimensional electron gas and improve current characteristics. The group III nitride semiconductor wafer is used to make the group III nitride semiconductor device. The group III nitride semiconductor wafer comprises a substrate made of AlXGa1-XN (0
Structures and method for reducing junction leakage in semiconductor devices. The die can include a substrate having a cut edge, a first region of first conductivity type within the substrate and a region of a second conductivity type within the substrate and in contact with the first region forming a junction. At least one semiconductor device is on the substrate. A second region of the first conductivity type is between the plurality of semiconductor devices and the cut edge within the region of the second conductivity type, and extending to the junction. The second region of the first conductivity type can isolate the at least one semiconductor device from leakage pathways created by saw damage at the junction along the cut edge.
A circuit is proposed for limiting maximum switching FET drain-source voltage (VDS) of a transformer-coupled push pull power converter with maximum DC supply voltage VIN—MAX. Maximum VDS is accentuated by leakage inductances of the push pull transformer and the power converter circuit traces. The limiting circuit bridges the drains of the switching FETs and it includes two serially connected opposing Zener diodes each having a Zener voltage Vzx. The invention is applicable to both N-channel and P-channel FETs. In a specific embodiment, Vzx is selected to be slightly ≧2*VIN—MAX with the maximum VDS clamped to about VIN—MAX+½Vzx. In another embodiment, a proposed power switching device with integrated VDS-clamping includes a switching FET; and a Zener diode having a first terminal and a second terminal, the second terminal of the Zener diode is connected to the drain terminal of the switching FET.
The invention of the present application provides an IE-type trench IGBT. In the IE-type trench IGBT, each of linear unit cell areas that configure a cell area is comprised principally of linear active and inactive cell areas. The linear active cell area is divided into an active section having an emitter region and an inactive section as seen in its longitudinal direction.
There is a reflective layer covering almost the entire surface of the light emitting portion except the portions where the light emitting elements are arranged, it is possible to increase the reflectivity of the light emitting portion to realize a higher luminance. In addition, the heat generated from the light emitting elements can be dissipated through the reflective layer, so that it is possible to prevent overheat of the light emitting device, and it is thus possible to improve the reliability of the light emitting device.
An organic light emitting display and method of fabricating thereof, the display including a substrate including a first thin film transistor region and a second thin film transistor region; a buffer layer on the substrate; a first and a second semiconductor layer on the buffer layer; a gate insulating layer on the substrate; gate electrodes on the gate insulating layer and corresponding to the first semiconductor layer and the second semiconductor layer, respectively; source/drain electrodes insulated from the gate electrode and being connected to the first semiconductor layer and the second semiconductor layer, respectively; an insulating layer on the substrate; a first electrode connected to the source/drain electrode electrically connected to the first semiconductor layer; an organic layer on the first electrode; and a second electrode on the organic layer, wherein portions of the buffer layer corresponding to a source/drain region of the first semiconductor layer include a metal catalyst.
A light emitting diode includes a second electrode, a first semiconductor layer, an active layer, a second semiconductor layer, a reflector, and a first electrode. The second electrode, the first semiconductor layer, the active layer, the second semiconductor layer, and the reflector are stacked on the first electrode in that order. The first semiconductor layer defines a plurality of grooves on a surface contacting the second electrode. The plurality of grooves form a patterned surface used as the light extraction surface. A carbon nanotube layer is located on the patterned surface and embedded into the grooves.
The present invention relates to a movement detection device for detecting a movement of an object in a space range. The movement detection device includes a light source, a light guiding element, at least two light sensing elements and a processing unit. The light sensing elements have an offset therebetween along a first direction such that the object, when moving in the space range, reflects the light from the light source sequentially to the light sensing elements through the light guiding element. The processing unit identifies the movement of the object along the first direction according to a sequence that the light sensing elements detect the light reflected by the object.
In order to obtain optimal reflectivity on optical elements for the EUV and the soft X-ray range, multilayers constructed of a number of layers are used. Contamination or degradation of the surface leads to imaging defects and transmission losses. In the prior art, it has been attempted to counter a negative change in the surface by providing a cover layer system on the surface of the reflective optical element that should protect the surface. The invention renders the influence of the surface degradation manageable by a targeted selection of the distribution of thickness of the cover layer system, whereby at least one layer of the cover layer system has a gradient that is not equal to zero.
Ion implant apparatus using a drum-type scan wheel holds wafers with a total cone angle less than 60°. A collimated scanned beam of ions, for example H+, is directed along a final beam path which is at an angle of at least 45° to the axis of rotation of the scan wheel. Ions are extracted from a source and accelerated along a linear acceleration path to a high implant energy (more than 500 keV) before scanning or mass analysis. The mass analyzer may be located near the axis of rotation and unwanted ions are directed to an annular beam dump which may be mounted on the scan wheel.
A sterilizing apparatus for sterilizing a feeding bottle assembly for a baby, the feeding bottle assembly comprising a feeding bottle, a top end and a base end, the top end having an open neck; the sterilizing apparatus comprising a housing which is adapted to attach to and sit on the top end of the bottle, an ultraviolet (UV) light source on the housing which extends into the bottle for UV sterilization of the bottle when the housing is attached to the bottle, and a switch which automatically switches on the UV light source when the sterilizing apparatus is attached to the bottle.
Disclosed herein is a device for curing photoactivatable paint coatings. The device comprises a curing radiation source configured to emit radiation sufficient to cure a photoactivatable paint coating at a target location. The radiation source is located at a source location operably spaced from the target location where the photoactivatable paint coating is to be cured thereon. A motorized support for supporting the curing radiation source at the source location is provided where the motorized support is configured to advance the curing radiation source along a travel path. The motorized support is further configured to cycle the curing radiation source along the travel path between a first position and a second position in order to vary over time the angle of attack of the radiation emitted from the curing radiation source toward the target location.
An imaging method includes obtaining a first image data for a subset of a target region, the subset of the target region having a first metallic object, obtaining a second image data for the target region, and using the first and second image data to determine a composite image. A imaging system includes a first detector configured to provide a first projection data using a first radiation having high energy, and a second detector configured to provide a second projection data using a second radiation having low energy, wherein the first detector has a first length, the second detector has a second length, and the first length is less than 75% of the second length.
A method of aligning a die when the die is held with a circuit pattern on a first side of the die facing away from an infrared light source, wherein infrared light from the infrared light source is projected onto a second side of the die opposite to the first side such that the infrared light passes through a body of the die. From the second side of the die, an image of the infrared light reflected from the circuit pattern is detected and captured. Thereafter, an alignment of the die from the captured image of the die is determined.
A collision or fragmentation cell is disclosed comprising a plurality of electrodes wherein a first RF voltage is applied to an upstream group of electrodes and a second different RF voltage is applied to a downstream group of electrodes. The radial confinement of parent ions entering the collision or fragmentation cell is optimized by the first RF voltage applied to the upstream group of electrodes and the radial confinement of daughter or fragment ions produced within the collision or fragmentation cell is optimized by the second different RF voltage applied to the downstream group of electrodes.
Disclosed is an imaging sensor. The image sensor may comprise a plurality of pixels. At least one of the plurality of pixels may comprise a plurality of photo-diodes, wherein the plurality of photo-diodes share a portion of a detecting. The detecting circuit may comprise at least one of a reset transistor, a source follower, a selective transistor and a Floating Diffusion (FD) node.
Laser machining systems and methods may include debris removal systems to remove debris generated by the machining process and/or outgassing or filtration systems to remove harmful gases and filter and recycle air within the system. The laser machining systems and methods may be used to scribe one or more lines in large flat workpieces such as solar panels. In particular, laser machining systems and methods may be used to scribe lines in thin film photovoltaic (PV) solar panels with accuracy, high speed and reduced cost.
Embodiments of the present invention are related to an electrode for a plasma arc torch, the electrode comprising a generally tubular outer wall, an end wall, and a protrusion. The end wall is joined to a distal end of the outer wall and supports an emissive element in a generally central region. The protrusion extends from the generally central region of the end wall and is configured to connect with an electrode holder by a releasable connection, wherein the protrusion is configured such that at least one coolant passage forms between the protrusion and the electrode holder when the electrode is connected with the electrode holder. In some embodiments, the releasable connection comprises a threaded connection, wherein the protrusion is threaded to releasably connect to a threaded coolant tube of the electrode holder. In other embodiments, at least one coolant passage is defined by the threaded connection.
An improved plasma torch and method of starting the torch are provided. The torch may comprise a main torch body with an electrode assembly coupled to a piston therein. The piston and electrode assembly are moveable between a starting position whereby the electrode assembly contacts a nozzle, and an operating position whereby the electrode assembly does not contact the nozzle. The piston is moveable by directing fluid, which may comprise coolant, through the plasma torch either in a first direction which biases the piston to the starting position, or in an opposite second direction which biases the piston so as to retract the electrode assembly to the operating position. A reversing valve or reversible pump may be used to control the direction of the flow of the fluid. Thereby, the coolant supply may be used to both cool the torch and control the starting and operation of the torch.
A side button structure includes a housing with switches, and a button assembly moveably fixed on the housing; the button assembly includes a flexible pin and at least one pressing blocks, the flexible pin passing through the pressing blocks. Pressing the button assembly enables the flexible pin to deform, the button assembly to move to the housing, and the pressing blocks to attach to the switches.
A semiconductor device includes a substrate, a first pad that is formed above the substrate, a second pad that is formed above the substrate, an external terminal that is connected with the second pad, and a circuit that judges whether or not the first pad is connected with the external terminal, wherein a distance between the first pad and a side of the substrate opposed to the external terminal is different from a distance between the second pad and the side.
This invention relates to a moisture resistant cord plate for a photovoltaic module, methods of manufacturing photovoltaic modules, and methods for generating electricity from photovoltaic modules.
A pad includes a first mating section and a second mating section. The first mating section includes a first horizontal plane and a first inclined plane. The second mating section includes a second horizontal plane and a second inclined plane. The first mating section is a copper foil capable of being connected to a wire. The second mating section is made of insulating material. The first inclined plane and the second inclined plane are bonded together.
A differential transmission circuit includes a pair of transmission line conductors and a ground conductor layer, wherein the pair of transmission line conductors include a first straight line region where both the pair of transmission line conductors extend in parallel to each other in a first direction with a first width in a first layer, a first cross region where one of the pair of transmission line conductors is formed in the first layer, the other thereof is formed in a second layer, and the pair of transmission line conductors cross the each other in a three-dimensional manner, the first cross region being disposed on the front side of the first straight line region, and wherein each of the widths of the pair of transmission line conductors in the first cross region is smaller than the first width.
Disclosed is a die mounting substrate, which includes a mounting substrate having a pad, a die having a terminal and surface-mounted on the mounting substrate, and a conductive paste bump formed on the pad or the terminal so as to connect the pad and the terminal to each other. When the die is connected and mounted on the mounting substrate using the conductive paste bump, shear stress is relieved thus preventing reliability from decreasing due to a difference in the coefficient of thermal expansion between the die and the mounting substrate, and also preventing the force of adhesion of the bump from decreasing due to the reduction in size of the pad of the mounting substrate.
A multilayer wiring board 100 comprises a first wiring region 101 where wirings 103a and insulating layers 104a and 104b are alternately laminated, and a second wiring region 102 where a thickness H2 of an insulating layer 104 is twice or more a thickness H1 of the insulating layer in the first wiring region 101 and a width W2 of a wiring 103b is twice or more a width W1 of the wiring in the first wiring region 101. The first wiring region 101 and the second wiring region 102 are integrally formed on the same board.
The present invention relates to a binuclear ruthenium complex dye having a higher absorption coefficient and capable of absorbing light of longer wavelength for realizing a photoelectric conversion element and a photochemical cell which may convert solar light into electricity over a wide wavelength range and exhibit high photoelectric conversion efficiency; and a binuclear ruthenium complex dye for realizing a photoelectric conversion element and a photochemical cell which may have high durability.
A method and system for remote concert ensemble using a communication network is disclosed. The remote concert system comprises a server; and a plurality of terminals connected to the server, wherein the terminals transmit a MIDI signal to the server after generating the MIDI signal in accordance with the input of a recital signal, and the server transmits a received MIDI signal to the plurality of terminals synchronically and each of the terminals outputs the MIDI signal received from the server via a corresponding sound source.
A novel soybean variety, designated XB49K12 is provided. Also provided are the seeds of soybean variety XB49K12, cells from soybean variety XB49K12, plants of soybean XB49K12, and plant parts of soybean variety XB49K12. Methods provided include producing a soybean plant by crossing soybean variety XB49K12 with another soybean plant, methods for introgressing a transgenic trait, a mutant trait, and/or a native trait into soybean variety XB49K12, methods for producing other soybean varieties or plant parts derived from soybean variety XB49K12, and methods of characterizing soybean variety XB49K12. Soybean seed, cells, plants, germplasm, breeding lines, varieties, and plant parts produced by these methods and/or derived from soybean variety XB49K12 are further provided.
In a process for the transalkylation of polycyclohexylbenzenes, a feed containing at least one polycyclohexylbenzene is contacted with benzene under transalkylation conditions with a catalyst comprising a zeolite USY having a silica to alumina molar ratio in excess of 10 to convert at least part of said polycyclohexylbenzene to cyclohexylbenzene.
Disclosed herein are blowing agents comprising fluorocarbons and/or hydrofluorocarbons useful in foamable compositions. Also disclosed are methods for forming a foam comprising the aforementioned blowing agents.
The subject of the present invention is a method for separating a carboxylic acid in salified form bearing at least one halogen atom at the α position of the carbonyl group from a medium comprising it. The method according to the invention, for separating a carboxylic acid in salified form bearing at least one halogen atom at the α position of the carbonyl group from an aqueous medium comprising it, is characterized by the fact that the latter is brought into contact with an onium salt leading to the formation of two phases: an organic phase comprising the salt resulting from the reaction of the salt of the carboxylic acid bearing at least one halogen atom at the α position of the carbonyl group and of the onium salt leading to the displacement of the cation from the carboxylic acid by the onium, an aqueous phase comprising the various salts, in particular the one resulting from the reaction of the cation of the carboxylic acid with the anion of the onium, and by the fact that the organic and aqueous phases are then separated and that the onium salt of the carboxylic acid is recovered from the organic phase.
Disclosed herein are methods of preparing a bis(thio-hydrazide amides) compounds of the following structural formula: wherein R1, R2, R3, R4, R5, R6 and R13 are defined herein.
The present invention relates to compounds of the formula I wherein R1, R2, R3, R4, X and Y have the meanings given in the description. The compounds have an action which is immunomodulating and inhibits or regulates the release of IL-1β and/or TNF-α. They can therefore be used for treatment of diseases connected with a disturbance in the immune system.
Disclosed herein are nucleoside phosphoramidates and their use as agents for treating viral diseases. These compounds are inhibitors of RNA-dependent 5 RNA viral replication and are useful as inhibitors of HCV NS5B polymerase, as inhibitors of HCV replication and for treatment of hepatitis C infection in mammals.
A carrier for use for separation purpose and a method for separation of a compound enable a chemical reaction to be performed in a liquid phase, a compound of interest to be separated from the liquid phase after the completion of the reaction readily, the separated compound to be evaluated by structural analysis or the like while the compound is being bound to the carrier, and the compound to be separated from the carrier readily. A carrier for separation is also provided which has a reaction site capable of reacting with other compound(s) on a benzene ring, and a long-chain group having a specified carbon atom(s) at each of the ortho-position and the para-position of the reaction site through an oxygen atom.
A photochromic composition for making optical materials comprising a polyurethane prepolymer formed by combining an isocyanate and a compound having an active hydrogen containing group, a polysilsequioxane and a photochromic compound. The photochromic composition may also include a monomer that has both an active hydrogen containing group and an unsaturated group. The polysilsesquioxane is incorporated as a copolymer and/or as a polysilsequioxane-chemically modified polyurethane.
An optical resin comprises a copolymer of 4-methyl-1-pentene and at least one monomer selected from the group consisting of 3-methyl-1-pentene, 3-methyl-1-butene and 4,4-dimethyl-1-pentene. The content of a constituent unit (a) derived from 4-methyl-1-pentene is equal to or more than 60 mol % and equal to or less than 99 mol %, and the total content of a constituent unit (b) derived from at least one monomer selected from the group consisting of 3-methyl-1-pentene, 3-methyl-1-butene and 4,4-dimethyl-1-pentene is equal to or more than 1 mol % and equal to or less than 40 mol %.
Compounds represented by formula (Rf-Q-X)s—Z. Each Rf is independently a partially fluorinated or fully fluorinated group selected from Rfa-(O)r—CHF—(CF2)n—; [Rfb-(O)tC(L)H—CF2—O]m—W—; CF3CFH—O—(CF2)p—; CF3—(O—CF2)z—; and CF3—O—(CF2)3—O—CF2—. Methods of reducing surface tension of a liquid, making foams, and treating a surface using the compounds are also disclosed.
The present invention relates to a dispersion for the application of a metal layer on a non-electrically-conductive substrate comprising an organic binder component, a metal component, and also a solvent component. The invention further relates to processes for the production of the dispersion, processes for the production of a non-structured or structured metal layer with the aid of the dispersion, and also to the resultant substrate surfaces and their use.
This invention relates to a polymer blend comprising: (A) about 1% by weight to about 99% by weight of at least one polymer (A) comprising terephthalic acid residues, 2,2,4,4-tetramethyl-1,3-cyclobutanediol residues; and 1,4-cyclohexanedimethanol residues; (B) about 1% by weight to about 99% by weight of at least one polymer (B) comprising 1,4-cyclohexanedicarboxylic acid residues and 1,4-cyclohexanedimethanol residues, and (C) about 0.01% by weight to about 20% by weight of at least one antimicrobial agent; said weight percentages being based on the total weight of the polymer blend.
The subject of the invention is a group of new derivatives of aminoalkanols, more specifically [(phenoxy)alkyl]aminoalkanols and [(phenoxy)acyl)aminoalkanols, their method of obtaining and their use for production of a medicine which is used in the prophylaxis, prevention and/or treatment of diseases or symptoms having neurological background and for production of a medicine with anticonvulsant activity, which is used in seizures of various origin, also in the limbic system, in myoclonic or sound-induced seizures, in psychomotor epilepsy, as well as in relieving neuropathic or inflammatory pain.
Methods for restoring a more nearly normal joint function in an osteoarthritic dog and methods for decreasing the likelihood of a dog developing osteoarthritis involve administering to the dogs a composition containing an effective concentration of the omega-3 fatty acid, eicosapentaenoic acid (EPA).
The invention relates to the use of esters of 2-propylheptanol with benzoic acid and/or benzoic acid derivatives in cosmetic and/or pharmaceutical preparations. The compounds are distinguished by their particularly light sensory impression.
A triterpenoid compound, methyl 2-cyano-3,12-dioxoleana-1,9(11)-dien-28-oate (CDDO methyl ester), has a non-crystalline, glassy solid form and a non-hydrous crystalline form that can prepared, for example, from a saturated methanol solution. The glassy form displays an enhanced bioavailability over the non-hydrous crystalline form. Each form of CDDO methyl ester is a superior candidate for use, typically in solid dosage form, for treating a variety of disease states, generally associated with inflammation.
Methods of treating a TRPC5 mediated disorder in a subject by administering an effective amount of a TRPC5 antagonist, such as a compound disclosed herein, are described.
The present invention relates to novel 8-azabicyclo[3.2.1]oct-2-ene derivatives useful as monoamine neurotransmitter re-uptake inhibitors. In other aspects the invention relates to the use of these compounds in a method for therapy and to pharmaceutical compositions comprising the compounds of the invention.
The present invention is directed to a compound represented by the following structural formula or a pharmaceutically acceptable salt thereof. Pharmaceutical compositions and method of use of the compounds are also described.
Provided herein are quinazoline compounds for treatment of JAK kinase mediated diseases, including JAK2 kinase-, JAK3 kinase- or TYK2 kinase-mediated diseases. Also provided are pharmaceutical compositions comprising the compounds and methods of using the compounds and compositions.
The present invention relates to a liquid composition containing an active substance belonging to the family of substituted benzhydryl piperazines with reduced amounts of preservatives.
The present invention provides spirolactam derivatives of formula (I): wherein R1-R7 are as defined herein; or a pharmaceutically acceptable salt thereof; and pharmaceutical compositions and uses of the same.
The present invention relates to modulators of ATP-Binding Cassette (“ABC”) transporters or fragments thereof, including Cystic Fibrosis Transmembrane Conductance Regulator, compositions thereof, and methods therewith. The present invention also relates to methods of treating diseases using such CFTR modulators.
The invention is directed to compounds of Formula (I) useful as PPAR agonists. Pharmaceutical compositions and methods of treating one or more conditions including, but not limited to, diabetes, nephropathy, neuropathy, retinopathy, polycystic ovary syndrome, hypertension, ischemia, stroke, irritable bowel disorder, inflammation, cataract, cardiovascular diseases, Metabolic X Syndrome, hyper-LDL-cholesterolemia, dyslipidemia (including hypertriglyceridemia, hypercholesterolemia, mixed hyperlipidemia, and hypo-HDL-cholesterolemia), atherosclerosis, obesity, and other disorders related to lipid metabolism and energy homeostasis complications thereof, using compounds of the invention are also described.
Estrogen and progesterone replacement therapies are provided herein. Among others, the following formulations are provided herein: solubilized estradiol without progesterone; micronized progesterone without estradiol; micronized progesterone with partially solubilized progesterone; solubilized estradiol with micronized progesterone; solubilized estradiol with micronized progesterone in combination with partially solubilized progesterone; and solubilized estradiol with solubilized progesterone.
Disclosed is a compound of the formula (I) or a pharmaceutically acceptable salt thereof: (I) in which R1, R2, R3, and R4 are defined herein and pharmaceutical compositions thereof. Further provided is a method of treating various disorders, such as a disorder selected from the group consisting of a cardiovascular disorder, cancer, chronic pain, alcohol dependence, and inflammation in a patient comprising administering an effective amount of a compound or pharmaceutically acceptable salt of formula (I).
The invention provides an ophthalmic composition which is an aqueous suspension comprising drug, cyclodextrin and water, the composition having an aqueous phase of from about 0.1% (w/v) to about 90% (w/v) of the drug in solution, as dissolved free drug and as dissolved drug/cyclodextrin complex(es), and a solid phase of from about 10% (w/v) to about 99.9% (w/v) of the drug as solid drug/cyclodextrin particles, suspended in the aqueous phase; the size of the solid particles being from about 10 nm to about 1 mm, the drug/cyclodextrin particles being capable of dissolving in aqueous tear fluid within 24 hours of application to the eye surface. The aqueous eye suspension can be in the form of eye drops, eye gel or eye mist. Further, the invention provides a method for treating a condition of the posterior segment and/or anterior segment of the eye comprising applying to the eye surface, in an amount which delivers to said segment or segments a therapeutically effective amount of a drug suitable for treating said condition, an ophthalmic composition which is as defined above. Nasal compositions and methods and ophthalmic and nasal compositions in powder form are also provided.
The invention relates to topical formulations in the form of a bioadhesive hydrophilic gel comprising acyclovir as active ingredient, Sodium hyaluronate and an acrylic polymer. Said formulations improve the local administration of acyclovir in the treatment of herpes infections, because they possess good properties of adherence to the mucosa and high resistance to physiological removal mechanisms.
The invention provides for methods of treating a mammal who has a BCR/ABL-mediated leukemia, including chronic myelogenous leukemia (CML), particularly the blast crisis stage of CML, Philadelphia-positive acute lymphoblastic leukemia (Ph′-ALL), and refractory leukemias. The invention also provides for compounds for the treatment of these leukemias and methods of identifying anti-leukemic agents.
The present invention relates to compositions for use in the modulation of PDZ domain interactions with cognate ligands. Methods of assessing and characterizing PDZ domain interactions from various polypeptides also are provided.
The invention relates to novel insulin analogs having a basal time-action profile, which are characterized by the addition and/or substitution of negatively and positively charged amino acid residues and by an amidation of the C-terminal carboxy group of the B chain and histidine in position 8 of the insulin A chain. The invention also relates to the production and use thereof.
A method for promoting a sustained increased level of T-cell production in immunocompromised subjects in which method enkephalin peptides are administered according to an intermittent dose schedule. In particular, the method involves treatment of immunocompromised patients which includes the administration of enkephalin, either alone or in conjunction with other therapies, in an initial dosage regimen, with periodic booster dosages of enkephalin as necessary to maintain sustained immune system response.
A hydrocarbon reforming catalyst, a method of preparing the hydrocarbon reforming catalyst, and a fuel cell including the hydrocarbon reforming catalyst. The hydrocarbon reforming catalyst includes an oxide support as well as a nickel active catalyst layer, a metal oxide, an alkali metal supported by the oxide support.
The invention relates to a method for preparing a chemical composition obtained by co-impregnating water-soluble salts Ba/Mg and phosphoric acid H3PO4 on boehmite alumina which has been calcined in the presence of water vapor. Said chemical composition is used as an additive in the catalytic cracking process in order to capture metals originating from the charge, particularly vanadium, in the presence of SO2 and thus to protect the activity and selectivity of the catalytic cracking catalyst.
A composition comprising a supported hydrogenation catalyst comprising palladium and an organophosphorous compound, the supported hydrogenation catalyst being capable of selectively hydrogenating highly unsaturated hydrocarbons to unsaturated hydrocarbons. A method of making a selective hydrogenation catalyst comprising contacting a support with a palladium-containing compound to form a palladium supported composition, contacting the palladium supported composition with an organophosphorus compound to form a catalyst precursor, and reducing the catalyst precursor to form the catalyst. A method of selectively hydrogenating highly unsaturated hydrocarbons to an unsaturated hydrocarbon enriched composition comprising contacting a supported catalyst comprising palladium and an organophosphorous compound with a feed comprising highly unsaturated hydrocarbon under conditions suitable for hydrogenating at least a portion of the highly unsaturated hydrocarbon feed to form the unsaturated hydrocarbon enriched composition.
Provided are methods for depositing a high-k dielectric film on a substrate. The methods comprise annealing a substrate after cleaning the surface to create dangling bonds and depositing the high-k dielectric film on the annealed surface.
Provided is a method of fabricating a semiconductor device. The method includes providing a substrate. The method includes forming a portion of an interconnect structure over the substrate. The portion of the interconnect structure has an opening. The method includes obtaining a boron-containing gas that is free of a boron-10 isotope. The method includes filling the opening with a conductive material to form a contact. The filling of the opening is carried out using the boron-containing gas. Also provided is a semiconductor device. The semiconductor device includes a substrate. The semiconductor device includes an interconnect structure formed over the substrate. The semiconductor device includes a conductive contact formed in the interconnect structure. The conductive contact has a material composition that includes Tungsten and Boron, wherein the Boron is a 11B-enriched Boron.
A substrate (1) of semiconductor material is provided with a contact pad (7). An opening (9) is formed through the semiconductor material from an upper surface to the contact pad, the opening forming an edge (18) at or near the upper surface. A dielectric layer (10) is applied on the semiconductor material in the opening. A metallization (11) is applied, which contacts the contact pad and is separated from the substrate by the dielectric layer. A top-metal (12) is applied, which contacts the metallization at or near the edge. A protection layer (13) is applied, which covers the top-metal and/or the metallization at least at or near the edge, and a passivation (15) is applied.
A manufacturing method of a semiconductor device including an electrode having low contact resistivity to a nitride semiconductor is provided. The manufacturing method includes a carbon containing layer forming step of forming a carbon containing layer containing carbon on a nitride semiconductor layer, and a titanium containing layer forming step of forming a titanium containing layer containing titanium on the carbon containing layer. A complete solid solution Ti (C, N) layer of TiN and TiC is formed between the titanium containing layer and the nitride semiconductor layer. As a result, the titanium containing layer comes to be in ohmic contact with the nitride semiconductor layer throughout the border therebetween.
A method of forming a transistor device includes implanting a diffusion inhibiting species in a semiconductor-on-insulator substrate comprising a bulk substrate, a buried insulator layer, and a semiconductor-on-insulator layer, the semiconductor-on-insulator substrate having one or more gate structures formed thereon such that the diffusion inhibiting species is disposed in portions of the semiconductor-on-insulator layer corresponding to a channel region, and disposed in portions of the buried insulator layer corresponding to source and drain regions. A transistor dopant species is introduced in the source and drain regions. An anneal is performed so as to diffuse the transistor dopant species in a substantially vertical direction while substantially preventing lateral diffusion of the transistor dopant species into the channel region.
A method of manufacturing a GaN-based semiconductor device includes the steps of: preparing a composite substrate including: a support substrate having a thermal expansion coefficient at a ratio of not less than 0.8 and not more than 1.2 relative to a thermal expansion coefficient of GaN; and a GaN layer bonded to the support substrate, using an ion implantation separation method; growing at least one GaN-based semiconductor layer on the GaN layer of the composite substrate; and removing the support substrate of the composite substrate by dissolving the support substrate. Thus, the method of manufacturing a GaN-based semiconductor device is provided by which GaN-based semiconductor devices having excellent characteristics can be manufactured at a high yield ratio.
A method for fabricating a transistor with uniaxial stress channels includes depositing an insulating layer onto a substrate, defining bars within the insulating layer, recessing a channel into the substrate, growing a first semiconducting material in the channel, defining a gate stack over the bars and semiconducting material, defining source and drain recesses and embedding a second semiconducting material into the source and drain recesses.
Provided is a method of manufacturing a semiconductor device. The method may include etching a first conductive type semiconductor substrate to form a first trench, forming a second trench extending from the first trench, diffusing impurities into inner walls of the second trench to form a second conductive type impurity region surrounding the second trench, forming a floating dielectric layer covering inner walls of the second trench and a floating electrode filling the second trench, and forming a gate dielectric layer covering inner walls of the first trench and a gate electrode filling the first trench.
A semiconductor structure and method of manufacturing is provided. The method of manufacturing includes forming shallow trench isolation (STI) in a substrate and providing a first material and a second material on the substrate. The first material and the second material are mixed into the substrate by a thermal anneal process to form a first island and second island at an nFET region and a pFET region, respectively. A layer of different material is formed on the first island and the second island. The STI relaxes and facilitates the relaxation of the first island and the second island. The first material may be deposited or grown Ge material and the second material may deposited or grown Si:C or C. A strained Si layer is formed on at least one of the first island and the second island.
Disclosed are process enhancements to fully integrate the processing of a photonics device into a CMOS manufacturing process flow. A CMOS wafer may be divided into different portions. One of the portions is for the CMOS devices and one or more other portions are for the photonics devices. The photonics devices include a ridged waveguide and a germanium photodetector. The germanium photodetector may utilize a seeded crystallization from melt process so there is more flexibility in the processing of the germanium photodetector.
The present invention relates to a method for manufacturing a mother substrate, the mother substrate comprising: a substrate comprising at least one display region and pre-cutting regions in a periphery of the display region, wherein the display region comprises gate scanning lines and data scanning lines, the pre-cutting regions comprise a gate-line connecting line and a data-line connecting line electrically connected to each other, and the gate-line connecting line is electrically connected to all of the gate scanning lines in the display region, and the data-line connecting line is electrically connected to all of the data scanning lines in the display region substrate.
A method of manufacture of an integrated circuit package system includes: forming a paddle, an outer lead, and an inner lead between the paddle and the outer lead; forming a non-vertical paddle edge of the paddle and a non-vertical lead edge of the inner lead facing the non-vertical paddle edge; and encapsulating an integrated circuit die over the paddle.
A method of manufacture of an integrated circuit package system includes forming a substrate with a device thereover, forming an encapsulation having a planar top surface to cover the device and the substrate spanning to an extraction side of the encapsulation, and forming a recess in the encapsulation from the planar top surface.
Manufacturing a semiconductor structure including: forming a seed material on a sidewall of a mandrel; forming a graphene field effect transistor (FET) on the seed material; and removing the seed material.
A photovoltaic device is described. The photovoltaic device comprises an organic-based antireflection layer. A method of making a photovoltaic device is also described.
A light emitting diode includes a substrate, a first semiconductor layer, an active layer, a second semiconductor layer, a first electrode, a transparent conductive layer, a second electrode and a metal grating. The first semiconductor layer, the active layer, and the second semiconductor layer are orderly stacked on the substrate. The first electrode is electrically connected to the first semiconductor layer. The transparent conductive layer is located on a surface of the second semiconductor layer away from the substrate. The second electrode is electrically connected to the transparent conductive layer. The metal grating is located on a surface of the transparent conductive layer away from the substrate. The metal grating is a two-dimensional array of a plurality of metal micro-structures.
A method for manufacturing a quantum cascade laser includes the steps of forming a semiconductor stacked structure including a first semiconductor region and a second semiconductor region; forming an etching mask having a striped pattern on the second semiconductor region; forming a semiconductor mesa structure having a mesa shape in cross section by etching the first and second semiconductor regions using the etching mask; forming an insulating layer over a top portion and side surfaces of the semiconductor mesa structure and the first semiconductor region; forming an opening in a portion of the insulating layer that is disposed on the top portion of the semiconductor mesa structure; and forming an electrode over the inside of the opening of the insulating layer, the top portion and side surfaces of the semiconductor mesa structure, and the first semiconductor region.
The invention can be used for producing different luminescent materials and as a basis for producing subminiature light-emitting diodes, white light sources, single-electron transistors, nonlinear optical devices and photosensitive and photovoltaic devices. The inventive method for producing semiconductor quantum dots involves synthesizing nanocrystal nuclei from a chalcogen-containing precursor and a precursor containing a group II or IV metal using an organic solvent and a surface modifier. The method is characterized in that (aminoalkyl)trialkoxysilanes are used as the surface modifier, core synthesis is carried out at a permanent temperature ranging from 150 to 250 C for 15 seconds to 1 hour and in that the reaction mixture containing the nanocrystal is additionally treated by UV-light for 1-10 minutes and by ultrasound for 5-15 minutes.
In embodiments of the current invention, methods of combinatorial processing and a test chip for use in these methods are described. These methods and test chips enable the efficient development of materials, processes, and process sequence integration schemes for semiconductor manufacturing processes. In general, the methods simplify the processing sequence of forming devices or partially formed devices on a test chip such that the devices can be tested immediately after formation. The immediate testing allows for the high throughput testing of varied materials, processes, or process sequences on the test chip. The test chip has multiple site isolated regions where each of the regions is varied from one another and the test chip is designed to enable high throughput testing of the different regions.
A semiconductor device includes a substrate having a main surface and a rear surface, a transistor formed over a side of the main surface, an insulator layer formed over a side of the main surface, an inductor formed over the insulator layer and a side of the main surface, a tape overlapping the inductor and formed over a side of the main surface, and a bonding pad formed over the insulating layer and a side of the main surface. The tape is selectively formed over an area without the bonding pad.
The invention relates to in vitro methods for differentiating mammalian pluripotent stem cells into cells displaying a neuronal phenotype, more particularly into cortical-type neurons including inter alia pyramidal neurons and cortical inhibitory interneurons. The invention further encompasses so-obtained neuronal cells and cell population, compositions comprising such, and further uses of said neuronal cells and cell population.
Disclosed herein are cell cultures comprising PDX1-positive endoderm cells and methods of producing the same. Also disclosed herein are cell populations comprising substantially purified PDX1-positive endoderm cells as well as methods for enriching, isolating and purifying PDX1-positive endoderm cells from other cell types. Methods of identifying differentiation factors capable of promoting the differentiation of endoderm cells, such as PDX1-positive foregut endoderm cells and PDX1-negative definitive endoderm cells, are also disclosed.
The present invention is directed to a T cell receptor (TCR) recognizing antigenic peptides derived from tumor-associated antigen FMNL1/KW13 and being capable of inducing peptide specific killing of a target cell. The present invention is further directed to one antigenic peptides derived from tumor-associated antigen FMNL1/KW13, to an antigen specific T cell, comprising said TCR, to a nucleic acid coding for said TCR and to the use of the antigen specific T cells for the manufacture of a medicament for the treatment of malignancies characterized by overexpression of FMNL1/KW13.
The present invention relates to methods for diagnosing and treatment of a dormant infection of at least one pathogen. The invention further relates to a composition comprising an anti-dormancy factor as well as to said composition for use in a method of diagnosis or treatment and also to a method for manufacturing said composition. The invention further relates to a kit of parts comprising, inter alia, said composition. The invention also relates to a method for activating a dormant infection.
Methods for producing proteins, for example, recombinant meningococcal 2086 proteins, using fed-batch fermentation with continuous input of an inducer after achieving a threshold parameter, and optionally continuous input of a carbon source, for example, a constant rate input, to improve protein yields, as well as high density protein compositions and compositions for use in the methods of the present invention, are provided.
The present invention relates to the use of at least one peptide comprising or consisting of a sequence selected from the group consisting of SEQ ID NO: 1, SEQ ID NO: 2, SEQ ID NO: 3, SEQ ID NO: 4 and SEQ ID NO: 5, for determining the presence of extracts from at least one grass species in a composition.
The present invention provides compounds and methods for assaying activities of enzymes such as histone deacetylases and histone acetyltransferases. In some embodiments, the methods may be performed in one step. The compounds described herein features peptide-based compounds having at least one blocked lysine or arginine residue which are coupled to reporter moieties. The methods described herein involve reacting a compound described herein with an enzyme, such as a histone deacetylase enzyme or a histone acetyltransferase enzyme, and an endopeptidase that recognizes basic amino acids to release the reporter moiety which may be subsequently detected.
A method of measuring binding between hemoglobin and a microbe of interest includes: providing hemoglobin from a source of interest; contacting the hemoglobin with a microbe of interest; and measuring the binding affinity between the hemoglobin and the microbe, wherein the binding affinity is indicative of microbe virulence in the presence of the hemoglobin.
Methods and compositions for diagnosing and treating diseases, particularly cancer, associated with differential expression of cancer-associated targets (CAT) in disease cells compared to healthy cells are provided. Also provided are antagonists and agonists of CAT, and methods for screening agents that modulate CAT level or activity in vivo or in vitro.
Provided herein are compositions and systems for use in polymerase-dependent, nucleotide transient-binding methods. The methods are useful for deducing the sequence of a template nucleic acid molecule and single nucleotide polymorphism (SNP) analyses. The methods rely on the fact that the polymerase transient-binding time for a complementary nucleotide is longer compared to that of a non-complementary nucleotide. The labeled nucleotides transiently-binds the polymerase in a template-dependent manner, but does not incorporate. The methods are conducted under any reaction condition that permits transient binding of a complementary or non-complementary nucleotide to a polymerase, and inhibits nucleotide incorporation.
This document provides methods and materials for detecting target nucleic acid. For example, methods and materials for detecting the presence or absence of target nucleic acid, methods and materials for detecting the amount of target nucleic acid present within a sample, kits for detecting the presence or absence of target nucleic acid, kits for detecting the amount of target nucleic acid present within a sample, and methods for making such kits are provided.
A method and a device for detecting nucleic acid are disclosed, wherein impurities in a sample can be easily removed. The method comprises injecting a sample containing an adsorption medium with nucleic adsorbed thereon into a chamber; washing the sample; heating the sample to denature the nucleic acid; cooling down; and detecting nucleic acid by using the biomolecule detection device. The device includes: a source and a drain region; a gate electrode layer; a chamber formed over the semiconductor substrate including the gate electrode layer; and a heating means, wherein a gate adsorption layer to which a nucleic acid is adsorbed is formed on the gate electrode layer. A single-stranded nucleic acid is adsorbed to the gate adsorption layer, and a channel is formed between the source and the drain region. The current in the channel provides a basis to detect a gene.
The present invention provides a novel cancer marker for evaluating the onset, the preclinical stage, the clinical stage, or the prognosis of a cancer in a subject, and an evaluation method using the same. A cancer marker containing at least one miRNA selected from hsa-miR-92 and hsa-miR-494 is used as a marker for cancers excluding breast cancer. A method for evaluating the possibility of cancers excluding breast cancer includes the step of detecting the expression level of a cancer marker in a biological sample collected from a subject. In this method, the cancer marker contains at least one miRNA selected from hsa-miR-92 and hsa-miR-494.
The present invention provides a method for allowing foreign particles to penetrate, very efficiently, the cell wall, cell membrane, organelle membrane and/or nuclear membrane of a cell and hybridizing or binding to the complimentary target in the cell. The cells may be from a culture or from specimens obtained from a patient. The foreign particle can be a probe consisting of, for example, either individually or in any combination of two or more of the following: DNA, RNA, peptide nucleic acids (PNA), glycopeptides, lipopeptides, glycolipids or prions. The target is a cell, a cell component or, preferably, a pathogen or pathogen component. The pathogen can be, for example, bacteria, fungi, yeast or viruses.
A processing solution (or developer) has been designed for use to washout non-polymerized photopolymer compositions to prepare flexographic printing plates having flexographic relief images. This processing solution includes one or more esters of monobasic carboxylic acids represented by one or both of Structures (I) and (II) defined herein and one or more aliphatic or aromatic alcohols.
According to one embodiment, an actinic-ray- or radiation-sensitive resin composition comprises a hydrophobic resin (HR) containing a fluorine atom, wherein the hydrophobic resin (HR) comprises any of repeating units (a) of general formula (I) or (II) below:
Provided is a method for forming an image containing the sequential steps of: forming a foil adhesion toner image on an image supporting substrate with a foil adhesion toner (α) which comprises at least a binder resin containing a thermoplastic resin using an electrophotographic method; forming a foil image on the foil adhesion toner image by contacting a transfer foil on the foil adhesion toner image with applying heat; and forming a visible toner image on the image supporting substrate which has been formed with the foil image with at least one image forming toner (β) using an electrophotographic method, followed by fixing the visible toner image by applying heat and pressure thereto, wherein Δ(Tsp(α)−Tsp(β)) is 5 to 50° C., provided that Tsp (α) is a softening point of the foil adhesion toner (α) and Tsp (β) is a softening point of the image forming toner (β).
A main objective of the present invention is to provide an air secondary battery which can suppress the deterioration in charge-discharge properties caused by the oxygen generated in an air cathode layer at the time of charge. The present invention solves the problems by providing an air secondary battery which comprises: an air cathode which has an air cathode layer containing a conductive material and an air cathode current collector which collects current of the air cathode layer; an anode which has an anode layer containing an anode active material and an anode current collector which collects current of the anode layer; and a permeation preventing layer which is formed on the surface of the side of the anode layer of the air cathode layer, made of a nonaqueous polymer electrolyte, and which prevents the permeation of the oxygen generated in the air cathode layer at the time of charge.
Modified surfaces on metal anodes for batteries can help resist formation of malfunction-inducing surface defects. The modification can include application of a protective nanocomposite coating that can inhibit formation of surface defects. such as dendrites, on the anode during charge/discharge cycles. For example, for anodes having a metal (M′), the protective coating can be characterized by products of chemical or electrochemical dissociation of a nanocomposite containing a polymer and an exfoliated compound (Ma′Mb″Xc). The metal, M′, comprises Li, Na, or Zn. The exfoliated compound comprises M′ among lamella of Mb″Xc, wherein M″ is Fe, Mo, Ta, W, or V, and X is S, O, or Se.
A rechargeable battery includes an electrode assembly in a battery case, the electrode assembly including a positive electrode, a negative electrode, and a separator, a cap plate connected to the battery case, the cap plate including a short member configured to deform and electrically connect the positive and negative electrodes, and a current collecting portion including at least one fuse, the at least one fuse being electrically connected to one of the negative and positive electrodes of the electrode assembly.
A secondary battery includes an electrode assembly having first and second electrodes and a separator, a pouch type case for receiving the electrode assembly, and a sheath for enclosing outer sides of the case. The sheath can prevent damage to the pouch in electronic devices to which the secondary battery is applicable as an inner pack type.
An electrochemical cell includes components that are welded from an external source after the components are assembled in a cell canister. The cell canister houses electrode tabs and a core insert. An end cap insert is disposed opposite the core insert. An external weld source, such as a laser beam, is applied to the end cap insert, such that the end cap insert, the electrode tabs, and the core insert are electrically coupled by a weld which extends from the end cap insert to the core insert.
A battery module 100 includes a plurality of cells aligned and accommodated in a case 10, wherein a positive electrode external terminal 20 and a negative electrode external terminal 21 which are connected to electrodes of the plurality of cells are disposed in parallel on a first side surface 11 of the case 10 at a predetermined interval, a pair of recessed sections 30, 31 are formed on a second side surface 12 adjacent to the first side surface 11 of the case 10 at a same interval as the predetermined interval, a first portion 51 of an L-shaped electrode piece 50 is selectively attachable to the positive electrode external terminal 20 or the negative electrode external terminal 21, and a second portion 52 of the electrode piece 50 is selectively attachable to any one of the pair of recessed sections 30, 31.
A battery pack is described. In one aspect it can securely connect a connecting tab extending from a protective circuit board and a sensing tab drawn out from a sensing terminal of each battery cell using a connection hook extending from a case. According to some embodiments, the battery pack may include a plurality of battery cells connected in series with respect to at least one sensing terminal arranged from a first large current terminal to a second large current terminal, a sensing terminal circuit including a sensing tab having a first throughhole formed inward and drawn out from the sensing terminal. a protective circuit module including a connecting tab having a second throughhole corresponding to the first throughhole formed inward and overlapping and electrically connected to the sensing tab. and a battery case for receiving the plurality of battery cells, the sensing terminal circuit and the protective circuit module.
An aspect of the present invention relates to a radiation-curable vinyl chloride copolymer, which comprises a structural unit denoted by general formula (1): wherein, in general formula (1), R1 denotes a hydrogen atom or a methyl group, and L1 denotes a divalent linking group denoted by formula (2), formula (3), or general formula (4): wherein, in general formula (4), R41 denotes a hydrogen atom or a methyl group.
Coated articles comprising a decorative metal substrate and a transparent cured coating thereon containing inorganic particles in which the concentration of particles in the exposed surface region of the cured coating is greater than the bulk region of the coating. Preferably, the transparent coating is applied by electrodeposition.
A coating solution comprising: a first solvent; 0.1 to 30 parts by weight of a polycarboxylic acid-based polymer relative to 100 parts by weight of the solvent; 0.01 to 0.35 chemical equivalent of an alkali metal compound relative to an amount of carboxyl group in the polycarboxylic acid-based polymer; and 0.05 to 0.75 chemical equivalent of a multivalent metal compound relative to the amount of the carboxyl group, wherein a number average molecular weight of the polycarboxylic acid-based polymer is in a range of 40,000 to 10,000,000.
Provided is a microporous material including a polyolefin matrix material; finely divided, substantially water-insoluble filler distributed throughout the matrix material, where the filler includes a positive amount of titanium dioxide; a network of interconnecting pores communicating throughout the microporous material; and optionally, a contrasting enhancing amount of a contrast enhancing material. The sum of the weight percent of the titanium dioxide and the weight percent of the optional contrast enhancing material is at least 3 weight percent based on total weight of the microporous material. Multilayer articles having a layer of the microporous material also are provided.
A film for producing a sheet for a multilayer optical recording medium, the sheet having a repeating structure containing a plurality of laminated optical recording layers, the sheet has a structure including a unit wherein an optical recording layer and an adhesive layer are laminated or a structure including a unit wherein an optical recording layer, a barrier layer and an adhesive layer are laminated, and a maximum height roughness of the optical recording layer or the barrier layer is 500 nm or smaller, the optical recording layer or the barrier layer is disposed on a process film on a face at a side for forming the optical recording layer or at a side for forming the barrier layer, the face at the side for forming the optical recording layer or at the side for forming the barrier layer having a maximum height roughness of 500 nm or smaller.
An extruded PET parison includes a first extruded polymer comprising PET, and a second extruded polymer comprising PET. In embodiments, the first extruded polymer and the second extruded polymer are co-extruded, and the first extruded polymer has an intrinsic viscosity that is higher that the intrinsic viscosity of the second extruded polymer. A monolayer embodiment is also disclosed. In embodiments, a monolayer extruded PET container is comprised of bottle grade PET resin that has been solid stated and may have an IV from about 0.96 to about 1.4.
Methods for deposition of elemental metal films on surfaces using metal coordination complexes comprising nitrogen-containing ligands are provided. Also provided are nitrogen-containing ligands useful in the methods of the invention and metal coordination complexes comprising these ligands.
A method of producing a honeycomb filter using a production apparatus that includes: a workpiece securing section for securing a base of a honeycomb filter; a powder transfer section for transferring a powder together with a pressurized gas (e.g., air); an introduction section for introducing the powder that has transferred from the powder transfer section into the base secured by the workpiece securing section when the apparatus is used; a suction section for sucking the gas that has passed through the base secured by the workpiece securing section using suction means; a cleaning section for removing a surplus powder adhering to an end face of the base after the introduction of the powder; a judgment section for judging an amount of the powder adhering to the base; and a workpiece transfer section for transferring the base among the workpiece securing section, the cleaning section, and the judgment section.
Methods and apparatus are disclosed for loading a therapeutic substance or drug within a lumenal space of a hollow wire having a plurality of side openings along a length thereof that forms a hollow drug-eluting stent with a plurality of side drug delivery openings. Loading a drug within the lumenal space of the hollow stent includes a drug filling step, in which the drug is mixed with a solvent or dispersion medium. The lumenal space may be filled with the drug solution or suspension in a reverse fill process and/or a forward fill process. After the drug filling step, a solvent or dispersion medium extracting step is performed to extract the solvent or dispersion medium from within the lumenal space such that only the drug remains within the hollow stent. A stent cleaning step may be performed to an exterior surface of the hollow stent.
The invention provides methods and systems that control the application of a material onto micro-rough implant surfaces. Thus, the present invention provides method of applying crystalline nanoparticles onto the surface of an implant to produce an implant with a crystalline nanoparticle layer on its surface, the method comprising: providing an implant substrate body; applying crystalline nanoparticles onto the surface of the implant; and rotating the implant, to produce an implant with a crystalline nanoparticle layer on its surface. This method of nanoparticle application is designed to promote the integration of implants, such as dental and orthopedic screws, into living tissue, and offers the ability to control the thickness and uniformity of the nanoparticle layer, in one or several layers, while simultaneously retaining the microroughness of the implant. Further provided are systems for applying crystalline nanoparticles onto the surface of an implant and implants having a crystalline nanoparticle layer on their surfaces.
A method of making a compression device having a pressure applicator for applying a compression to a wearer's body part when the device is placed on the wearer's body includes applying a colorant having a first color to at least a portion of a loop material having a second color that is different than the first color. The step of applying colorant includes applying colorant to loops of the loop material so that repeated connection and disconnection of hook material attached to the device with the loop material causes loops having the first color of the colorant thereon to break so that the second color of the loop material is revealed by breakage of loops of the loop material having the colorant applied thereto.
Shelf stable microwave dessert packaged food products for individual servings comprise a novel, shielded packaging or container including a microwave shielded cup; a shelf-stable ready-to-heat uncooked product disposed within the cup, a modified low oxygen atmosphere in the headspace above the batter, and a peelably removable, low gas permeability sealing membrane. The articles provide high preparation abuse tolerance notwithstanding the low, controlled portion quantities (100 calorie) of batter.
The invention relates to a gaseous mixture containing oxygen (O2) and a volume proportion of 20 to 70% of xenon (Xe) for use as an inhalable drug for preventing or treating hypersensitivity to pain in humans or animals, in particular hypersensitivity to pain expressed as hyperalgesia or allodynia.
Coprocessed compositions containing microcrystalline cellulose and calcium carbonate, wherein the weight ratio of microcrystalline cellulose to calcium carbonate is relatively high, are useful as excipients in the preparation of solid dosage forms containing active pharmaceutical ingredients, particularly those prepared by processes involving multiple compaction steps. Such compositions may be obtained, for example, by preparing aqueous slurries or wet masses of microcrystalline cellulose and calcium carbonate and drying such slurries or wet masses to produce particulate products. The coprocessed products exhibit improved recompactibility, as compared to coprocessed products having lower microcrystalline cellulose:calcium carbonate weight ratios or as compared to physical dry blends of the two excipients.
The present invention provides methods for feeding older sows that beneficially reduce feed intake in older sows, yet improve pig survival and weaning weight of pigs from older sows.
Compositions of and methods for formulating and delivering biologically active agent formulations having enhanced physical stability, and wherein deterioration from the presence of oxygen and/or water is minimized and/or controlled, to yield a stable formulation. The compositions of and methods for formulating and delivering biologically active agents of the present invention further facilitate their incorporation into a biocompatible coating which can be employed to coat a stratum-corneum piercing microprojection, or a plurality of stratum-corneum piercing microprojections of a delivery device, for delivery of the biocompatible coating through the skin of a subject, thus providing an effective means of delivering the biologically active agents.
Cereal β(1-3) β(1-4) glucan is used as a film or coating agent to produce clear, edible, biodegradable, delivery, lubricating, and protecting agents. Cereal β(1-3) β(1-4) glucans are distinctive polymers of glucose differentiated from other polymers by not only their source but also their physicochemical properties. The β(1-3) β(1-4) forms a matrix to sequester other materials, such as pharmaceutical, medical and therapeutic agents, flavors, fragrances. The technology has applications to essential oils and non-aqueous materials that are rendered deliverable by the β(1-3) β(1-4) glucan. The β(1-3) β(1-4) glucan films described may be consumed whereby they dissolve in the mouth in a controlled manner and may be used for the delivery of pharmaceutical, medical or confectionery products.
There are provided methods for controlling microbial or biofilm growth, comprising mixing a hypochlorite oxidant and at least one nitrogen-containing compound or salt thereof selected from a particular group of nitrogen-containing compounds and salts to form a biocide, and applying the biocide. Apparatus for practicing the methods are also provided.
The invention relates to a skin care pad comprising exfoliating elements (4) which are distributed between at least one first fibrous layer (2) and a second fibrous layer (6), said second layer having a lower basis weight than the first fibrous layer. In this way, the inventive pad can be used daily, in order to exfoliate and massage the skin and to remove make-up.
The present invention relates to peptides derived from the proinflammatory cytokines, interleukin-1β (IL1β) and tumor necrosis factor α (TNFα), and their use in human or veterinary therapy, such as to generally treat diseases linked to the overproduction of IL1β or TNFα as well as acute or chronic inflammatory diseases, rheumatoid arthritis, septic shock, autoimmune diabetes, graft rejection in the host, etc.
Isolated monoclonal antibodies or an antigen binding portion thereof which bind to prostate specific membrane antigen in its native form occurring on the surface of tumor cells characterized in that it is linked to a label or a cytotoxic agent or constructed as a part of a bispecific antibody or a recombinant diabody.
The present invention provides conjugates between Factor IX and PEG moieties. The conjugates are linked via an intact glycosyl linking group interposed between and covalently attached to the peptide and the modifying group. The conjugates are formed from glycosylated peptides by the action of a glycosyltransferase. The glycosyltransferase ligates a modified sugar moiety onto a glycosyl residue on the peptide. Also provided are methods for preparing the conjugates, methods for treating various disease conditions with the conjugates, and pharmaceutical formulations including the conjugates.
Preferred embodiments of the present invention relate to proteolytic enzyme formulations. More specifically, several embodiments relate to a proteolytic formulation to facilitate digestion, metabolism, degradation of target compounds, and systemic enzymatic action. Embodiments for improving oxygenation and reducing plaque are also provided.
Antiperspirant compositions are provided. In an exemplary embodiment, an antiperspirant composition includes an active antiperspirant compound and a structurant compound. The structurant compound includes a polyethylene having an average molecular weight of about 450 Daltons to about 580 Daltons and a polydispersity of greater than or equal to about 1.03. The polyethylene has a melting temperature of less than about 82° C.
Disclosed herein are compounds useful as two-photon tracers. Also, methods are provided for visualizing intracellular glucose uptake, screening anticancer agents, and diagnosing cancer using the compounds. They exhibit preferential uptake by cancer cells, penetrability sufficient to allow bright section images, high water solubility, high pH resistance and low toxicity in addition to applicability to living cells in deep tissues over a long period of time.
Provided are a method for producing sodium tungstate by supplying an oxidant made of sodium nitrate or sodium nitrite to bring a tungsten containing material and the oxidant into contact with each other in an atmosphere containing oxygen to thereby continuously produce a reaction product; a method for collecting tungsten using the method; and an apparatus for producing sodium tungstate. Also provided are a method for producing a sodium tungstate aqueous solution in which a reductant is introduced into a melt containing the above-described reaction product which is then dissolved in water; and a method for collecting tungsten using the method.
A syringe, defined by a cylinder and by a piston slidingly engaged in the cylinder itself, is actuated after having inserted the cylinder within a gripper and having axially fed the syringe through the gripper so as to move an outer flange of the cylinder into contact with the gripper and/or the piston in a stop position within the cylinder.
This disclosure is directed to systems for separating a target analyte from a suspension. A suspension is added to a tube. A float is also added to the tube, and the tube, float, and suspension are centrifuged together, causing the constituent components of the suspension to separate into different layers along the axial length of the tube according to their specific gravities. The float has a specific gravity that positions the float at approximately the same level as a layer containing the target analyte, when the tube, float and sample are centrifuged. Prior to isolation, the material may be located between an outer surface of the float and an inner surface of the tube, or within a central bore that extends longitudinally through the float. The target analyte may then be drawn into a compartment within the float, thereby isolating the target analyte from the other suspension constituents.
The present invention provides for a device and a kit for collecting body fluids. The device includes a body fluid collection portion comprising a body fluid absorbing material. The body fluid connecting portion has a free edge and is hingedly connected at the edge opposite to the free edge to a first support panel and a second support panel. A base panel is hingedly connected to the first support panel or the second support panel. In a first folded condition the body fluid collection portion is sandwiched between the first support panel and the second support panel in a substantially face contacting relationship. The device for collecting body fluids is configured to be folded from the first folded condition into a second folded condition, wherein the body fluid collection portion is exposed so that by grasping the device for collecting body fluids by means of a handle formed by the first support panel, the second support panel and optionally the base panel the body fluid collection portion can be inserted into a sample container containing a body fluid to be sampled. Moreover, the device for collecting body fluids is configured to be folded from the second folded condition into a drying or triangle configuration, wherein the first support panel, the second support panel and the base panel form the three sides of a triangle such that the body fluid collection portion is suspended from its hinged connection with the first and second support panels and arranged within the space defined by the first and second support panels and the base panel.
In some aspects, a modular analyte measurement system having a replaceable strip port module is provided to permit contaminated modules to be replaced. Some aspects of the present disclosure related to barriers for strip ports or the sealing of strip ports and/or analyte measurement devices to maintain a clean strip port and/or enable the strip port to be cleaned for reuse. Cleaning tools are also provided. Also provided are strip port interfaces that guide fluid away from the strip port opening, as well as absorptive elements that prevent fluid from entering a strip port. Analyte measurement devices with gravity sensors or accelerometers are also provided, along with methods related thereto. Also provided are docking station that serve as an information server and provides storage and recharging capabilities.
The present invention provides a fixed bed reactor for carrying out a mixed gas/liquid phase reaction, wherein the reactor has a piping structure composed of microchannels, the cross-sectional area of the fixed bed is 0.0001 cm2 to 0.008 cm2 and a single or parallely arranged two or more fixed beds, and the reactor has, in addition to the fixed beds, a gas phase distribution portion, a portion for introducing the gas phase to the fixed bed, a liquid phase distribution portion, a portion for introducing the liquid phase to the fixed bed, a packing material introduction portion and a fluid merging portion, a gas/liquid mixed phase reaction process for carrying out a gas/liquid mixed phase reaction using the fixed bed reactor described above, and further a process for producing hydrogen peroxide in which the reaction is started and stopped in a reducing atmosphere, and the present invention further provides a novel fixed bed gas/liquid mixed phase reactor which makes it possible to carry out gas/liquid mixed phase reactions stably and under steady state conditions by using microchannels.
The invention relates to a device for producing CO2, N2 and/or SO2 from a sample for a quantitative analysis of the sample, comprising a reactor structure and metals acting in an oxidizing manner or metal oxides in the reactor. According to the invention, the reactor structure has at least two zones through which the sample can flow, which is to say a first zone with reactor metal and reservoir metal, or only reactor metal, and following the first zone, a second zone with reactor metal and reservoir metal, or only reservoir metal, wherein both metals can form oxides, and wherein the ratio of the reactor metal to the reservoir metal in the first zone is greater than in the second zone.
A method for producing an injection-molded product includes steps of placing, in an injection mold, a heat-shrinkable resin sheet having region A and region B which have different surface temperatures when irradiated with infrared rays; integrating the resin sheet with an injection molding resin by injecting the injection molding resin into the mold; and, before the resin sheet is placed in the injection mold or before the integration step after the placing of the resin sheet in the injection mold, irradiating the resin sheet with infrared rays so that the surface temperatures of region A and region B are different from each other and the surface temperature of at least region A is equal to or higher than an orientation release stress inflection point temperature T of the resin sheet, thereby forming a difference in thickness between regions A and B.
A composite of metal and resin includes a metal piece and a resin piece. The metal piece includes a surface. Micropores are formed on the surface. The micropores have inlet diameters smaller than bottom diameters thereof. The resin piece is partially inserted into the micropores to combine with the metal piece.
An information handling system housing is manufactured from a laminate material having a stainless steel exterior and magnesium interior that are encapsulated with injection molding. A thin sheet of stainless steel is formed to have a lip that meets against the magnesium and is secured in place with injection molding material. In one embodiment, an injection molding tool holds the laminate material in place to encapsulate the perimeter of the material with injection molding material and also activates an adhesive that holds the laminate material together, such as by applying pressure and heat to the laminate material.
The invention is directed to carbon nanotube-containing compositions that have increased viscosity and stability. In particular, the invention is directed to methods for manufacturing carbon nanotube films and layers that provide superior electrical properties.
Disclosed is an electrode active material having a core-shell structure, which includes: (a) a core capable of intercalating and deintercalating lithium ions; and (b) a shell including a polymer or an oligomer having a glass transition temperature of 25° C. or less when impregnated with an electrolyte, wherein a surface of the core is coated with the shell. Also, an electrode manufactured by using the electrode active material and a secondary battery including the electrode are disclosed. The shell (b) suppresses the formation of an SEI layer during initial charge of a battery, and prevents initial capacity reduction. Accordingly, it is possible to achieve a high capacity battery. The electrode active material having a core-shell structure, specially a metal (loid) based electrode active material having a core-shell structure can have a slightly higher electric capacity, compared to a conventional electrode active material, specially a conventional metal (loid) based electrode active material, and can minimize gas generation during charge/discharge.
A method for producing a gas comprising at least 80 vol % carbon monoxide from a Fischer-Tropsch off-gas comprising: (1) feeding Fischer-Tropsch off-gas through a column comprising an adsorbent bed at high pressure and discharging effluent; (2) reducing the pressure in the column and the bed slightly; (3) rinsing the column and the adsorbent bed with methane or carbon dioxide; (4) rinsing the column and the adsorbent bed with carbon dioxide; (5) reducing the pressure of the column and adsorbent bed to a low pressure; (6) rinsing the column and adsorbent bed with a mixture of hydrogen and nitrogen; (7) pressurizing the column and adsorbent bed to a high pressure using a mixture of hydrogen and nitrogen. The carbon monoxide rich product stream obtained in step (3) can be sent as feed to a Fischer-Tropsch reaction. In an embodiment, a gas comprising at least 80 vol % hydrogen is also produced.
Disclosed is a cathode active material for secondary batteries comprising, a compound having a transition metal layer containing lithium as at least one compound selected from the following Formula 1: Li(Li3x±yM1−yPx)O2+z (1) wherein M is an element stable for a six-coordination structure, which is at least one selected from transition metals that belong to the first and second period elements; 0y is satisfied in a case of 3x−y.
An improved composition and method for cleaning a surface of a semiconductor wafer are provided. The composition can be used to selectively remove a low-k dielectric material such as silicon dioxide, a photoresist layer overlying a low-k dielectric layer, or both layers from the surface of the wafer. The composition is formulated according to the invention to provide a desired removal rate of the low-k dielectric and/or photoresist from the surface of the wafer. By varying a fluorine ion component, and the amounts of the fluorine ion component and an acid component, and controlling the pH, a composition can be formulated in order to achieve a desired low-k dielectric removal rate that ranges from slow and controlled at about 50 to about 1000 angstroms per minute, to a relatively rapid removal of low-k dielectric material at greater than about 1000 angstroms per minute. The composition can also be formulated to selectively remove the photoresist layer, leaving the underlying low-k dielectric layer essentially intact.
A multistage dissolved air flotation and advanced oxidation (MDAF-AO) system/method with multi-functions in oil recovery, solids removal, emulsion breaking, and advanced oxidation. Influent, with oil and suspended solids, enters a first stage for oil recovery includes a gas ionizer and an air dissolving pump. A second stage includes of two coagulation/flotation compartments connected in serial to enhance solids removal efficiencies. Micro air bubbles are created by air dissolving pumps in each compartment. A third stage is for the emulsion breaking unit to further remove or recover the emulsified oils. A fourth stage includes advanced oxidation by using ultraviolet (UV) and hydrogen peroxide to oxidize and disinfect the bacteria and microorganisms.
A filtration apparatus including an annular filter surrounding a waste treatment chamber, a first turbine drawing liquid up within the chamber and a second turbine driving liquid outwardly through the filter. In the method of treating organic waste, the chamber includes an ultraviolet lamp and a cylindrical baffle surrounding the chamber having a mirrored surface. The disclosed apparatus further includes anodic and cathodic plates surrounding the filter.
Processes are provided for producing a diesel fuel product having a sulfur content of 10 ppm by weight or less from feed sources that include up to 50% by weight of a biocomponent feedstock. The biocomponent feedstock is co-processed with a heavy oil feed in a severe hydrotreating stage. The product from the severe hydrotreatment stage is fractionated to separate out a diesel boiling range fraction, which is then separately hydrotreated.
A multi-ply wiper/towel product includes at least one wet laid web having at least 10% fibrillated cellulosic microfiber, and at least about 40% wood pulp derived papermaking fibers. The at least one wet laid web has formed therein (i) a plurality of fiber-enriched hollow domed regions on the upper side of the at least one wet laid web having a relatively high local basis weight, (ii) connecting regions having a relatively lower local basis weight forming a network interconnecting the relatively high local basis weight domed regions of the one wet laid web, and (iii) transition areas with upwardly and inwardly inflected consolidated fibrous regions transitioning from the connecting regions into the domed regions.
A method for bonding composites together that is fast and effective, and can be applied to any structure regardless of its size and shape, and its related product are disclosed. The method comprises first subjecting at least a part of a composite work piece to a low-temperature, atmospheric pressure plasma, wherein the reactive gas from the plasma is projected out of the device and onto the surface of the composite work piece, then applying an adhesive to the surface of the treated composite work piece, and joining the composite work piece together with a second work piece. The adhesive may be cured such that it forms a strong, permanent bond. The atmospheric plasma delivery device may be translated over the composite surface by hand or with a robot. The plasma device may be self-contained and portable, and can be moved to a location that is convenient for treating the composites.
Disclosed is a method for assembling insulating glass panes filled with a gas other than air. According to said method, two glass sheets provided with a spacer are arranged in a vertical or inclined position and facing each other, gas that is different from air is introduced into a chamber from below and the insulating glass pane is formed by moving the glass sheets closer to each other after reaching a desired gas filling level. According to the invention, the gas is homogenized before said gas is introduced through said gap.
An explosive component includes a first storage container holding a fuel, a second storage container holding an oxidizer, a mixer to mix the fuel and the oxidizer together into an energetic mixture, and a third storage container to hold the energetic mixture.
The present invention encloses a kind of the high-alloy cold work die steel wherein the steel in wt % consisting of: C 1.0˜2.5, Si≦1.3, Mn≦1.5, Cr 6.0˜15.0, V≦2.5, B 0.01˜0.4, and the balance is Fe with unavoidable impurities. The hardness and toughness of the die steel of the present invention are the same as Cr12MoV or Cr12Mo1V1, and even exceed them. And, the steel does not contain Mo with high price, the cost is lower than Cr12MoV or Cr12Mo1V1 accordingly, and the die steel of the present invention has a longer usage life, which is specially applied to make cold work moulds with high accuracy and long use life.
A wet wiper for cleaning accumulated oral debris from removable dental appliances. The wet wiper comprises a water insoluble substrate and a physiologically acceptable cleansing composition. Methods for cleaning removable dental appliances are also provided, such methods comprising the step of contacting, for a time sufficient to reduce oral debris, the removable dental appliances, with a wet wiper of the present invention.
A simple, compact burner achieves a more optimal melting of a solid charge followed by performance of combustion under distributed combustion conditions. The burner achieves this by fluidically bending the flame towards the solid charge during a melting phase with an actuating jet of oxidant, redirecting the flame in a direction away from the charge, and staging injection of oxidant among primary and secondary portions during a distributed combustion phase.
A filter assembly for filtering fluids includes a housing having a base and a cover having guide structure for assembly. The guide structure may also provide gasket retention.
The invention relates to a filter (1) having a drainage outlet (31), which can be tightly connected to a connecting head (12). It is proposed to use an insertion seal having radially opposite sealing surfaces of an outer seal (23) and an inner seal (24).
Bioprosthetic tissues are treated by immersing or otherwise contacting fixed, unfixed or partially fixed tissue with a glutaraldehyde solution that has previously been heat-treated or pH adjusted prior to its contact with the tissue. The prior heat treating or pH adjustment of the glutaraldehyde solution causes its free aldehyde concentration to decrease by about 25% or more, preferably by as much as 50%, and allows a “stabilized” glutaraldehyde solution to be obtained at the desired concentration and pH for an optimal fixation of the tissue at high or low temperature. This treatment results in a decrease in the tissue's propensity to calcify after being implanted within the body of a human or animal patient.
A system for securing a prosthesis in a bone includes a reference anchor for insertion into a cavity of a bone to define a reference point during prosthesis implantation, the reference anchor including a body having a mating feature and a gripping projection for engaging an inner surface of the bone cavity. The system also includes a stem having a terminal end adapted to mate with the engagement feature of the reference anchor such that the stem is disposed at a desired position relative to the reference point.
An implant meant for hip resurfacing arthroplasty, a surgical reconstruction performed on patients with diseased hips, during which the surgeon replaces the surface of the femoral head with a polished metallic hemispherical shell is disclosed. The implant includes a metallic shell with a polished hemispherical outer surface and an inner hemispherical concave surface, from which extends a trunnion having internal threads and thin meridian fins. The inner concave surface of the implant is fully metal porous coated for osseointegration between implant and bone. The presented implant is fitted onto the appropriately contoured femoral head and is stabilized by means of a preload tension wire which drills the femoral head and neck and exits the greater trochanter. The wire attaches proximally to the thread of the trunnion of the shell and distally to a nut-washer combination, by the tightening of which establishment of preload is achieved.
An nucleus prosthesis is disclosed having a plurality of linked segments configured to form, in a closed position, a disc shape. A method includes inserting a plurality of linked segments into an annulus fibrosus and closing the prosthesis so that a first segment inserted into the annulus fibrosus and a last segment inserted into the annulus fibrosus are substantially abutted. Another method includes inserting a plurality of linked segments into an intervertebral disc space and closing the prosthesis so that a first segment inserted into the intervertebral disc space and a last segment inserted into the intervertebral disc space are substantially abutted.
A method of replacing a deficient native aortic valve with a self-expandable prosthetic valve is disclosed. The method involves advancing a self-expandable prosthetic valve through a tapered tube for crimping the prosthetic valve into a crimped diameter. The prosthetic valve is then advanced into a restriction tube for maintaining the prosthetic valve in the crimped diameter. The prosthetic valve is then advanced into a body and is positioned within the deficient native aortic valve. The prosthetic valve is then released from the restriction tube such that the prosthetic valve self-expands to an expanded diameter for anchoring within the deficient native aortic valve. The prosthetic valve comprises an expandable tubular support frame and a valve assembly positioned within the support frame. The valve assembly is formed with pericardial tissue and has three leaflets for providing blockage to a reverse flow of blood.
Conformable end sealing stent for treating aortic aneurysms with acute angulation having an end portion with a circumference and configured to exert a radial force against an inner wall of the aorta, said end portion comprised of one or more filaments formed into at least three intertwined curved loops, each loop having a first and second end and a curved section which curved section is shaped and sized to extend at least halfway around the circumference.
In an exemplary embodiment, the present invention provides a fastener assembly that can be used for the fixation or anchoring of orthopedic devices or instruments to bone tissue. In particular, the present invention preferably provides a low profile variable angle or fixed angle fastener assembly that is able to securely connect the orthopedic device to bone tissue. Furthermore, in an exemplary embodiment, the present invention provides a fastener assembly having a locking mechanism that will quickly and easily lock the fastener assembly with respect to the orthopedic device.
Naphthalimide compounds are used in tissue bonding and protein cross-linking applications. When activated by an activating agent, such as light in the 400-500 nm absorption range, the naphthalimide compounds form chemically-reactive species that cross-link proteins, bond connective tissues together, and bond tissues and other biomaterials together. A naphthalimide-labeled biomolecule, such as a naphthalimide-labeled chitosan, is also capable of bonding tissues without subsequent direct illumination of the contacted tissue area. The naphthalimide compounds may be used in tissue or arterial repair, stabilization of an expanded arterial wall after angioplasty, tethering pharmaceutical agents to tissue surfaces to provide local drug delivery, and for chemically bonding skin care products, sunscreens, and cosmetics to the skin.
A surgical instrument having including a fixed handle and a pivoting handle, an elongated treatment part operating rod connected to the pivoting handle which advances and retracts with the operation of the pivoting handle, an insertion part through which the operating rod is inserted, a pivoting base supported on the distal end portion of the insertion part via a pivoting shaft so that the pivoting base is free to pivot, an elongated pivoting base operating rod whose distal end portion is connected to the pivoting base which causes the pivoting base to pivot about the pivoting shaft, a treatment part base which is connected to the pivoting base, and on which a surgical treatment part which performs an opening-and-closing action is disposed, and a joint member having a plurality of universal joints connects the treatment part operating rod and the surgical treatment part disposed on the treatment part base.
The present disclosure is directed to a method of facilitating treatment via a vascular wall defining a vascular lumen containing an occlusion therein. The method may include providing an intravascular device having a distal portion and a longitudinal axis and inserting the intravascular device into the vascular lumen. The method may further include positioning the distal portion in the vascular wall, rotating the intravascular device about the longitudinal axis, and advancing the intravascular device within the vascular wall.
A medical graft connector for connecting an end of a tubular graft conduit to a side wall of a patient's existing tubular body conduit via an aperture in the side wall thereof has a first plurality of fingers configured to engage an interior surface of the side wall of the existing conduit. A second plurality of fingers is configured to engage an exterior surface of the side wall of the existing conduit. A third plurality of fingers is received in an interior lumen of the graft conduit, and a fourth plurality of fingers is configured to pierce the graft conduit. The connector is radially deformable between a first size and a second size.
A non-absorbable surgical implant for use in the treatment of a vaginal prolapse is provided. The implant includes a knitted mesh having a mass density of less than 25 g/m2. The knitted mesh includes a monofilament, strands formed of the monofilament, major spaces located between adjacent strands and pores located within the strands. A method of treating a vaginal prolapse with a surgical implant is also provided.
A ligature and suture device for medical application includes a distal end insertion portion, a needle body, a ligature tool, and an operation section. The operation section includes a housing that is provided in a base end portion of the distal end insertion portion, a puncture handle that is provided in the housing so as to be able to move freely backwards and forwards and that drives the needle body, a pressing handle that is provided in the housing so as to be able to move freely backwards and forwards and that drives a pressing member, a ligature tool operation unit that is provided in the housing so as to be able to move freely backwards and forwards and that drives a ligature sheath, and a ligature handle that is provided in the ligature tool operation unit so as to be able to move freely backwards and forwards and that drives an engaging portion.
A multi-plane bone distraction system including an elongated member with an anchor, slot, rail and anchoring means for use as a distraction device in cutting and either lengthening or shortening a bone. The system is capable of being anchored to one or more bones.
A surgical instrument is disclosed. The instrument includes an end effector comprising a moveable cutting instrument to cut an object and a motor coupled to the end effector. The motor actuates the cutting instrument in response to a current therethrough, causing the cutting instrument to move between a proximal-most position and a distal-most position. The instrument includes an interlock coupled to the end effector and to the motor to prevent actuation of the cutting instrument based on the current through the motor.
Described herein are various methods and devices for delivering cryoablative therapy. One such device includes a cryoablation chamber and a volume displacement chamber. In use, the volume displacement chamber can be expanded to occupy a non-therapeutic volume.
Methods for treatment of photoaging signs and skin texture includes precooling a surface of the skin to be treated, applying a beam of radiation to the surface of the skin having a wavelength between about 515 nm to about 1200 nm and a fluence less than about 26 j/cm2. The beam includes two or more pulses have different wavelengths wherein each pulse has a pulse width and a duration of a pulse (i.e., pulse duration), and wherein the second pulse is superimposed on the first pulse over the same treatment area. Also, the method includes applying dynamic cooling to the surface of the skin simultaneous with applying the beam of radiation to the surface of the skin.
Disposable pant like garments are disclosed. Pant like garments of the present invention generally comprise a main absorbent portion and a pair of side portions. One or more sections of the pant-like garments are provided with one or more cohesive areas which allow for cohesive fastening and refastening of portions of the garment. The cohesives chosen may have the same properties or may be of the selective adhesive type. Pant like garments may be provided with cohesive fasteners and not other types of refastening means. In other variations, cohesive fasteners may be supplemented with one or more frangible bonds. Also disclosed are side portions having cohesive areas which may be converted in use from an abutting facing relationship to an overlapping facing relationship. Multiple cohesive areas of varying types for providing differential bond properties during use are also disclosed.
A medical delivery system comprising a container (202) for accommodation of a medicament and a dosing assembly (204) adapted to be fastened to the container. The medical delivery system comprises a coding mechanism for ensuring that only a predetermined container can be fastened to a predetermined dosing assembly. A container for use in the medical delivery system. A dosing assembly for use in the medical delivery system.
An anchor deployment apparatus for deploying an anchor about a therapy delivery element includes an anchor receiving element having an elongate member having a distal opening and a lumen extending proximally in the elongate member from the distal opening. The lumen of the elongate member is configured to slidably receive at least a portion of a therapy delivery element. The anchor deployment tool further includes an anchor engagement element having (i) a body forming a channel in which the elongate member of the anchor receiving element is axially movable, and (ii) an engagement feature forming at least a part of the channel. The engagement feature is configured to engage the anchor when the anchor is disposed about the elongate member and the elongate member is moved distally relative to the engagement element, and to cause the anchor to move distally along the elongate member when the feature is engaged with the anchor and the elongate member is moved distally relative to the engagement element. The anchor deployment tool also includes an alignment element secured relative to the elongate member and configured to secure the elongate member relative to the body of the anchor engagement element to restrict movement of the elongate member orthogonal to the axis of the channel. The anchor receiving element and the alignment element may be formed from the same or different parts.
Elements are provided for absorbing shock, pressure, impact and/or other external forces exerted upon a therapeutic fluid delivery device during use to protect the device from physical and internal damage and, thereby, according to some embodiments, maintain (for example) regulated and continuous administration of therapeutic fluid into the body.
In a control valve (3) for a medical suction device (1), it is provided that a coupling location (4) of the control valve (3) is includes a guide (8) which, when the control valve (3) is being plugged or fitted into a coupling seat (5) of the medical suction device (1), cooperates with a mating guide piece (9) of the coupling seat (5) for axial guiding and which, in a position turned away from the plugging-in orientation, cooperates with the coupling seat (5) for axially locking the control valve (3) on the coupling seat (5).
An enteral feeding tube provides a conduit for the flow of liquid nutritional material. Most of the enteral feeding tube that is external to the patient is generally horizontal when the device is positioned in a stoma of a user lying in a prostrate position. A housing surrounds the horizontal portion enteral feeding tube, provides a low profile, aids in holding the enteral feeding tube in place, and protects the enteral feeding tube. The bottom surface of the housing comprises a resilient material that contacts the skin of the patient. The enteral feeding tube comprises a balloon that is positioned in the stomach to retain the device in the stomach. An air conduit extends generally vertically from an upper portion of the housing and through the enteral feeding tube to communicate with the balloon.
An insufflation gas warmer and humidifier apparatus and methods are provided. Insufflation gas is received from a bulky insufflation tubing. Insufflation gas received travels through, in one aspect, a channel or winding flow path, in a passage. The configuration of the passage ensures that the insufflation gas, which travels through the passage, receives sufficient heat and moisture. A humidifying reservoir humidifies the insufflation gas as the insufflation gas is passed to the passage. In one aspect, an oxygenator introduces slight amounts of oxygen into the insufflation gas. A warmer connected to the passage warms the gas in the passage. The warmer, in one aspect, contains a reactive agent that when exposed to air produces heat that is transferred to the passage to warm the insufflation gas within the passage.
An implantable medical assembly includes a cover having a porous chamber. Enclosed within the chamber is a medical device through which aqueous body fluid flows from an outlet of the device into the chamber. The chamber is formed at least in part from a porous material that promotes vascularization and inhibits fibrotic encapsulation upon implantation and that allows aqueous body fluid in the chamber to flow through the porous material into body tissue in which the assembly is implanted. The chamber has a pair of walls that are spaced apart at a first portion of the chamber at or near the outlet and converge at a second portion of the chamber downstream of the outlet.
The present invention relates to a device for controlling a system for transporting blood, and a method for transporting blood in a blood line of an extracorporeal blood circuit of an extracorporeal blood treatment system. The present invention also relates to an extracorporeal blood treatment device comprising such a system for transporting blood. The method and device according to the present invention are based on the fact that a defined threshold value for the pressure in the blood line should not be exceeded. The system for transporting blood is controlled in such a way the blood in the blood line is transported in a pre-determined volume flow as long as the pressure in the blood line is below the pre-determined threshold value. When the pressure in the blood line reaches the pre-defined threshold value, however, the system for transporting blood is controlled such that a pressure value corresponding to the threshold value is set when the blood is transported in the blood line. As a result, when the threshold value for the pressure is reached, a regulation of the volume flow is replaced by a regulation of the pressure in the blood line.
An access disconnect system includes a blood processing machine having a blood pump operable with blood tubing, first and second conductive contacts located in the blood tubing on an arterial tubing side of a blood filter. The first conductive contact is located upstream of the blood pump and the second conductive contact is located downstream of the blood pump. The first and second conductive contacts are positioned and arranged to form a conductive circuit including a vascular system of a patient and the blood processing machine. The system further includes a source of electric current connected to at least one of the first and second conductive contacts and a transmitter for sending a signal indicative of an amount of current flowing through the conductive circuit when the source of electric current is applied.
A jointexercising device suitable for both lying and sitting patients comprises a tubular frame (11) having an inclined surface (20, 21), and a leg support (31) movable on the surface via an axle (39) and wheels (40). The support is attachable to the axle either via foot portion (33) or leg portion (32), and in either orientation. The inclination of the frame (11) is adjustable. Fences (51) allow leg lifting exercises without disengagement of the wheels (40).
A walking trainer having at least one orthotic, with holding devices for the foot or leg area of a user, which is moved along a preset motion track to execute a natural walking movement. Devices in the form of rolling or gliding means are provided on the underside of the orthotic for allowing the orthotic to glide on a surface below the walking trainer.
A normal lower jaw position of an examinee is determined. A lower jaw position determining method for determining a normal lower jaw position of an examinee, includes: center calculating for obtaining measurement data by measuring movement of a head of the examinee, and calculating a center of movement resulting from approximating the movement of the head as rotational movement of a rigid body; lower jaw orbit measuring for measuring a plurality of orbits of masticatory movement of the lower jaw, for a plurality of lower jaw positions of the examinee; and position determining for (i) approximating the masticatory movement of the lower jaw as rotational movement of a rigid body to find one of the plurality of measured orbits of the lower jaw whose center of movement in the approximation matches the calculated center of movement of the head, (ii) determining a lower jaw position that corresponds to the found orbit of the lower jaw to be a normal lower jaw position for the examinee, and (iii) outputting the determined normal lower jaw position.
A system for delivering information through a computer. The system comprises: data collecting means for collecting personal data including menstrual data regarding a menstrual cycle on a woman from a user; phase identification means for identifying a phase within the menstrual cycle; storage means for storing predetermined information; selection means for selecting information from the storage means, which is personalized based on the phase identified by the phase identification means; and delivery means for delivering the personalized information.
A device interface selectively acquires patient physiological parameter data. An acquisition processor acquires physiological data from a patient. A communication processor is coupled to an optical communication pathway for receiving optical signals from a source. A conversion processor electrically coupled to the acquisition processor and communication processor converts a first optical power signal at a first frequency and received via the optical communication pathway using the communication processor, to a first electrical signal for providing power to the device interface. The conversion processor converts an optical control signal at a second frequency different from the first frequency and received via the optical communication pathway using the communication processor, to a second electrical signal for providing control data to the acquisition processor directing the acquisition processor to acquire at least one physiological parameter from a patient.
Method and surgical instrument for treating prostate tissue including a surgical instrument having a main body, a needle deployment port, a needle, first and second handles and a lockout release mechanism to limit needle extension. Additionally, a kit includes the surgical instrument, together with a cystoscope, and optionally a syringe and reservoir of ethanol. The method includes needle-less injection and visualizing the ethanol injection by delivering both an echogenic agent and ethanol either by needle or needle-less injection or by providing an ultrasonically visible marker near the tip of the ethanol delivery cannula. The method also includes extending the needle transversely of the instrument housing using a link assembly.
The teachings provided herein are directed to a methods and devices for treating a hemorrhoid in a subject in a manner that produces substantially less post-procedural pain in the subject, the method minimizing or avoiding a removing or a necrosis of a rectal tissue fold.
Described are methods and apparatus for use in supporting tissue in a patient's body. In some embodiments, the patient's breast or another tissue is supported. One method involves introducing a superior soft tissue anchor into a patient, the anchor having an inferiorly facing total surface area; and introducing at least one inferior soft tissue anchor into the patient, such that the at least one inferior soft tissue anchor is suspended from the superior soft tissue anchor, the sum of all of the at least one inferior soft tissue anchors having a superiorly facing total surface area. The inferiorly facing total surface area of the superior anchor can be greater, such as at least two times greater than the superiorly facing total surface area of the at least one inferior anchor.
A chain-type magazine includes a box, a chain-type conveyor and a spinning unit. The box includes a port defined therein. The chain-type conveyor includes links connected to one another so that each of the links can be pivoted relative to the other links about two axes in parallel to each other. A tool can be inserted in a holder inserted in each of the links. The spinning unit includes a mounting assembly, an elevating assembly, a rotary claw assembly and a connecting rod. The mounting assembly is connected to the box. The elevating assembly is movably connected to the mounting assembly. The rotary claw assembly is rotationally connected to the mounting assembly for catching a selected one of the links. The connecting rod connects the elevating assembly to the rotary claw assembly. The driving element drives the elevating assembly to spin the rotary claw assembly.
A drive system has a transmission unit comprising at least one planet wheel stage, which has a hollow wheel, several planet wheels, a planet carrier and a sun wheel. Furthermore, a first shaft associated with the transmission unit is provided, which has a coupling flange that can be connected to a work machine shaft or rotor shaft and is mounted via the planet carrier. The transmission unit and a motor unit or generator unit connected to a second shaft of the transmission unit are enclosed by a gear housing which has a cardanic circumferentially symmetric or partially symmetric suspension for connection to a supporting structural element of the wind turbine.
A drive device 1A includes: electric motors 2A and 2B that outputs drive powers; and planetary gear reducers 12A and 12B disposed between axles 10A and 10B connected to cylindrical shafts 16A and 16B serving as the output shafts of the electric motors 2A and 2B and to rear wheels LWr and RWr. The drive device 1A further includes: a one-way power transmission device that transmits the one-way rotation power of the electric motors 2A and 2B to the axles 10A and 10B; and a two-way power transmission device that transmits the two-way rotation power of the electric motors 2A and 2B to the axles 10A and 10B. The one-way power transmission device and the two-way power transmission device are disposed on transmission passages from the electric motors 2A and 2B to the axles 10A and 10B.
Industry regulatory organizations have created performance restrictions for ball bats. The present invention relates to a ball bat with an internal impact dampening means. More particularly, the present invention relates to a ball bat with a handle, a barrel, and a central tube positioned coaxially within the barrel. The central tube includes at least one restriction member capable of limiting the deformation experienced by the ball bat upon impact of a ball. Precisely limiting the deformation of the ball bat allows the present invention to achieve, but not exceed, performance substantially equal to the maximum performance allowed by industry regulatory organizations and maintain that level of performance over a substantial length of the ball bat.
A golf ball is provided that has improved aerodynamic efficiency, resulting in increased flight distance for golfers of all swing speeds, and more particularly for golfers possessing very high swing speeds, such as those who can launch the balls at an initial speed greater than 160 miles per hour and more particularly at initial ball speed of about 170 miles per hour or higher. The golf ball of the present invention combines lower dimple count with multiple dimple sizes to provide higher dimple coverage and improved aerodynamic characteristics.
In one embodiment of a putter the putter comprises a head, a cap, at least one brush insert, and a handle. The brush insert(s) may be positioned between the head and cap and retained by the engagement of the cap with the head. The head and cap may be formed with respective ball apertures such that a golf ball may pass through those apertures. The brush insert, which is replaceable, may be formed with a plurality of radially oriented brushes having distal ends extending inward. The putter may be used to retrieve a golf ball from a golf cup by lowering the putter into the cup and forcing the golf ball into the brush insert. Subsequently removing the golf ball coupled with inserting the golf ball into the brush insert cleans the golf ball.
A method by which a streaming interactive video user session is handed off from one streaming interactive video server to another without noticeable disruption to the video stream or the user interactivity.
An apparatus for implementing a game having a deterministic component and a non-deterministic component wherein a player uses the game through at least one player interface unit. Each player interface unit generates a player record indicating player-initiated events. A random number generator provides a series of pseudo-random numbers and a rules library stores indexed rules for one or more games. An interface registry stores mapping records where the mapping records are used to associate the player-initiated events to pre-selected rules in the rules library. A control means is coupled to the player interface to receive the output of the player interface unit, coupled to the interface registry, the rules library, and the random number generator. The control means processes the player record and returns an output record to the player interface unit where the output record is determined by executing the game's rules with reference to the pseudo-random numbers and predefined combinatorial algorithms for selecting sets of the pseudo-random numbers. In various embodiments, random numbers may be generated for use in a particular game or set of games, but not for use in all games.
A method and system for using multi-channel communications to enhance security is described herein. In one embodiment, the method comprises receiving in a first gaming device a set of gaming data stream portions over a plurality of data channels, wherein the gaming data stream portions are received from a second gaming device. The method further comprises combining ones of the set of gaming data stream portions into a gaming data stream.
A game system including a plurality of mobile game apparatuses, and a mobile game apparatus that can communicate with another game apparatus that exists within a communicable range by use of a radio communications unit. When a communicated state is established, exchanging conditions for exchanging game data are received and transmitted, and in a case the exchange conditions are coincident with each other, the game data are exchanged.