Abstract:
A case or encasement for use with a smartdevice, such as a smartphone or tablet and an endoscope is disclosed. The encasement includes a power supply, logic for controlling wireless communications, a light source, and other accessories, for use with an endoscope. In an embodiment, the encasement includes a power supply that may be used to charge a smartdevice, power a light source and a wireless communications module. Other embodiments include a mechanism for communicating between the smartdevice and the encasement to control the light source and any other accessories coupled to the encasement.
Abstract:
An electronics-enabled eyewear device provides a primary command channel and a secondary command channel for receiving user input during untethered wear, one of the command channels providing for tap input detected by motion sensor(s) incorporated in a body of the eyewear device. A predefined tap sequence or pattern can be applied to frame of the device to trigger as device function. In one example, a double tap of the device's frame causes charge level display indicating a battery charge level.
Abstract:
A camera system for monitoring an inside of a body, which reduces an influence of a high-frequency noise, and has high reliability and ease of use is realized. The camera system for monitoring an inside of a body includes a camera support tube (13) formed of a conductive material, a metal spring (191) causing the camera support tube (13) to be grounded, a support-tube joining unit (14) joining the camera unit (11) and the camera support tube (13), and a control system (3) including a display (18).
Abstract:
A medical image recording device includes an image pickup device generating an image pickup signal by photoelectrically converting light reflected from a subject with use of an image pickup element, wherein an image pickup control unit displays, on a display unit, image data generated for each of frames constituting a video by processing the image pickup signal. A recording control unit records the image data on a memory card. A movement detection unit sequentially compares the image data between the adjacent frames, and calculates an amount of movement of the image pickup device from a positional shift of a main subject between the adjacent frames. If the amount of movement is within a preset range, a camera shake correction unit corrects a blur. If the amount of movement is greater than an upper limit of the range, the recording control unit stops recording of image data on the memory card.
Abstract:
A recording and entertainment system is provided. A mobile kiosk is capable or being outfitted with one or more cameras for capturing visual content, an audio recording system, a display device, a computer to control recording, storing, processing, and playing the captured visual and audio content. The captured video and audio are then processed and edited to produce remembrance products in various forms, including videos. Karaoke function is provided by a means for recognizing songs being performed and displaying lyrics on the display. Camera tilt, noise suppression, noise cancelation, voice control of the computer, a battery pack to free kiosk for movement, means for internet communication of the visual and audio content, means for confirming that objects of the visual content capture are within the field of view, robotic control of the kiosk, and interactive gaming means are additional features that can be utilized with the system.
Abstract:
[Object] To provide a contact lens and storage medium capable of controlling an image pickup unit provided in the contact lens.[Solution] Provided is a contact lens including: a lens unit configured to be worn on an eyeball; an image pickup unit configured to capture an image of a subject, the image pickup unit being provided in the lens unit; and an image pickup control unit configured to control the image pickup unit.
Abstract:
Provided is an image processing device including an acquisition unit configured to acquire information on an imaging position and an imaging direction in units of frame images that constitute a moving image obtained through capturing by an imaging unit, a converted image generation unit configured to generate converted images having different imaging directions for each frame image that constitutes the moving image based on the frame image itself and preceding and succeeding frame images of the frame image, an evaluation value calculation unit configured to calculate an evaluation value for each converted moving image constituted by combining the converted image and the original frame image, the evaluation value being used to evaluate a blur between the converted images or between the original frame images, and a selection unit configured to select a converted moving image with less blur based on an evaluation value calculated by the evaluation value calculation unit.
Abstract:
Disclosed is a magnification device for use by blind and/or low vision individuals. The device includes an X-Y table upon which an item to be magnified can be placed. A stationary camera arm and a pivotal monitor arm are oriented over the X-Y table. The monitor arm includes a video monitor pivotally mounted at its distal end. The camera arm also includes two laterally disposed lighting arms. A series of controls are provided along a lower edge of the monitor via a mounting bracket.
Abstract:
This disclosure relates to an apparatus for mounting a camera onto a firearm and an associated device for capturing images and recordings of a firearm target. The apparatus allows for easy attachment of cameras of varying sizes onto the scope of a firearm and along the same longitudinal axis of the scope. The apparatus comprises a sleeve connected to a scope of a firearm, the sleeve being hallow and having a longitudinal axis longitudinal axis forming an unobstructed axial bore and generally coaxial with a longitudinal axis of the scope; a base member with a hole and adapted to receive a camera with the hole of the base member positioned adjacent to the lens of the camera and the longitudinal axis of the camera lens is generally coaxial with the longitudinal axis of the scope.
Abstract:
An image processing apparatus includes an image acquiring unit, a distance acquiring unit, a painterly transformation processor, a thickness information acquiring unit, and a data generating unit. The distance acquiring unit acquires distance information for each of at least one object image included in an acquired image. The painterly transformation processor transforms each of the object image, included in the acquired image, into a painterly image. The thickness information acquiring unit acquires thickness information corresponding to the distance for each of the object image. The data generating unit generates data in which the painterly image and the thickness information are associated with each other.