公开(公告)号：US09292405B2

公开(公告)日：2016-03-22

申请号：US13791684

申请日：2013-03-08

Applicant: Pranav Wankawala ,  Irene Chen ,  Vimala K

Inventor： Pranav Wankawala ,  Irene Chen ,  Vimala K

IPC: G06F11/34 ,  G06F11/00

CPC classification number: G06F11/3457

Abstract: Data for simulation are selected from an in-memory database of an in-memory database server or simultaneous scenarios simulation at a business application server. The simulation results of a plurality of scenarios received from the business application server are temporarily stored at the in-memory database. One scenario from the plurality of scenarios is selected based on using user-defined rules at the in-memory database server. The selected scenario is communicated to the business application server.

Abstract translation: 用于模拟的数据从存储器内数据库服务器的内存数据库中选择，或者在业务应用程序服务器上同时进行情景模拟。 从业务应用服务器接收到的多个场景的仿真结果临时存储在存储器内数据库中。 基于在内存数据库服务器中使用用户定义的规则来选择来自多个场景的一个场景。 所选场景被传送到业务应用服务器。

公开(公告)号：US20100135668A1

公开(公告)日：2010-06-03

申请号：US12623298

申请日：2009-11-20

Applicant: Paul Amadeo ,  Allen Ripingill ,  David Robinson ,  Irene Chen

Inventor： Paul Amadeo ,  Allen Ripingill ,  David Robinson ,  Irene Chen

IPC: H04B10/02 ,  H04B10/06

CPC classification number: H04B10/1125

Abstract: A system, method, and optical communication device are disclosed. The system can include a plurality of optically coupled nodes forming an optical communication network. Each node may include an array of pixel elements, each pixel element having an optical detector and an active optical source. The pixel array may be disposed in a backplane of a lens that is configured to map incoming optical signals to pixel locations in the backplane according to their respective angles of incidence and to minimize a deviation at each pixel location between incoming optical signals arriving at the optical detector and emissions from the optical source. The node may include a processor and memory. The processor can register senders in the optical network at locations in the pixel array and can generate routing information by which to route communications from the registered senders to other pixel elements for transmission to their respective destinations.

Abstract translation: 公开了一种系统，方法和光通信设备。 该系统可以包括形成光通信网络的多个光耦合节点。 每个节点可以包括像素元件的阵列，每个像素元件具有光学检测器和有源光源。 像素阵列可以被布置在透镜的背板中，其被配置为根据入射光的入射角将入射光信号映射到背板中的像素位置，并且使到达光入射光信号处的每个像素位置处的偏差最小化 检测器和来自光源的发射。 节点可以包括处理器和存储器。 处理器可以在光学网络中在像素阵列中的位置处注册发送者，并且可以生成路由信息，通过该路由信息来将登记的发送者的通信路由到其他像素元素，以便传输到它们各自的目的地。

公开(公告)号：US08837949B2

公开(公告)日：2014-09-16

申请号：US12623298

申请日：2009-11-20

Applicant: Paul Amadeo ,  Allen Ripingill ,  David Robinson ,  Irene Chen

Inventor： Paul Amadeo ,  Allen Ripingill ,  David Robinson ,  Irene Chen

IPC: H04B10/00 ,  H04B10/112

CPC classification number: H04B10/1125

Abstract: A system, method, and optical communication device are disclosed. The system can include a plurality of optically coupled nodes forming an optical communication network. Each node may include an array of pixel elements, each pixel element having an optical detector and an active optical source. The pixel array may be disposed in a backplane of a lens that is configured to map incoming optical signals to pixel locations in the backplane according to their respective angles of incidence and to minimize a deviation at each pixel location between incoming optical signals arriving at the optical detector and emissions from the optical source. The node may include a processor and memory. The processor can register senders in the optical network at locations in the pixel array and can generate routing information by which to route communications from the registered senders to other pixel elements for transmission to their respective destinations.

Abstract translation: 公开了一种系统，方法和光通信设备。 该系统可以包括形成光通信网络的多个光耦合节点。 每个节点可以包括像素元件的阵列，每个像素元件具有光学检测器和有源光源。 像素阵列可以被布置在透镜的背板中，其被配置为根据入射光的入射角将入射光信号映射到背板中的像素位置，并且使到达光入射光信号处的每个像素位置处的偏差最小化 检测器和来自光源的发射。 节点可以包括处理器和存储器。 处理器可以在光学网络中在像素阵列中的位置处注册发送者，并且可以生成路由信息，通过该路由信息来将登记的发送者的通信路由到其他像素元素，以便传输到它们各自的目的地。

公开(公告)号：US08328380B2

公开(公告)日：2012-12-11

申请号：US13370318

申请日：2012-02-10

Applicant: Irene Chen ,  Jian-Shihn Tsang

Inventor： Irene Chen ,  Jian-Shihn Tsang

IPC: G02F1/13357

CPC classification number: G02F1/133603 ,  H01L33/54

Abstract: A light module of an LCD backlight module includes a circuit board and a plurality of light-emitting diodes (LEDs) arranged on the circuit board. Each of the LEDs has a wide far-field pattern and is without a reflector, and each of the LEDs includes at least one LED chip and a molding unit packaging the LED chip. The LED chip is electrically connected to the circuit board and is also suitable for backlighting use. When a light-emitting angle of each of the LEDs is at 120 degrees, a light intensity thereof is still more than 50% of the intensity at frontage.

Abstract translation: LCD背光模块的光模块包括布置在电路板上的电路板和多个发光二极管（LED）。 每个LED具有宽的远场图案，并且没有反射器，并且每个LED包括至少一个LED芯片和封装LED芯片的模制单元。 LED芯片电连接到电路板，并且也适用于背光使用。 当每个LED的发光角度为120度时，其光强度仍然大于正面强度的50％。

公开(公告)号：US08118442B2

公开(公告)日：2012-02-21

申请号：US12435891

申请日：2009-05-05

Applicant: Irene Chen ,  Jian Shihn Tsang

Inventor： Irene Chen ,  Jian Shihn Tsang

IPC: G02F1/13357

CPC classification number: G02F1/133603 ,  H01L33/54

Abstract: A light module of a LCD backlight module includes a circuit board and a plurality of light-emitting diodes (LEDs) arranged on the circuit board. Each of the LEDs has a wide far-field pattern, and each of the LEDs includes at least one LED chip and a molding unit packaging the LED chip. The LED chip is electrically connected to the circuit board.

Abstract translation: LCD背光模块的光模块包括布置在电路板上的电路板和多个发光二极管（LED）。 每个LED具有宽的远场图案，并且每个LED包括至少一个LED芯片和封装LED芯片的模制单元。 LED芯片电连接到电路板。

公开(公告)号：US20060073421A1

公开(公告)日：2006-04-06

申请号：US10711793

申请日：2004-10-06

Applicant: Irene Chen ,  Jyh-Huei Lay ,  Tien-Yu Chou ,  Yuan-Hung Wang ,  Chin-Chen Yang ,  Chuan-Lun Hsu

Inventor： Irene Chen ,  Jyh-Huei Lay ,  Tien-Yu Chou ,  Yuan-Hung Wang ,  Chin-Chen Yang ,  Chuan-Lun Hsu

IPC: B29C33/38

CPC classification number: G02B6/0065 ,  G03F7/0005

Abstract: A substrate is provided, and a surface treating process is performed on the surface of the substrate. Then, a plurality of photo resist patterns are formed on the substrate, and a flow process is performed so that each photo resist pattern has a microlens surface. Finally, a metal layer is formed on the photo resist patterns so that the bottom surface of the metal layer has a plurality of patterns complementary to the photo resist patterns.

Abstract translation: 提供基板，并且在基板的表面上进行表面处理工艺。 然后，在基板上形成多个光致抗蚀剂图案，并且进行流程处理，使得每个光刻胶图案具有微透镜表面。 最后，在光致抗蚀剂图案上形成金属层，使得金属层的底面具有与光刻胶图形互补的多个图案。

公开(公告)号：US5710652A

公开(公告)日：1998-01-20

申请号：US199115

申请日：1994-02-22

Applicant: Scott H. Bloom ,  Eric Korevaar ,  Victor Chan ,  Irene Chen ,  Michael D. Rivers ,  Amy Low

Inventor： Scott H. Bloom ,  Eric Korevaar ,  Victor Chan ,  Irene Chen ,  Michael D. Rivers ,  Amy Low

IPC: H04B10/118 ,  H04B10/00

CPC classification number: H04B10/118

Abstract: A laser communication transceiver for transmitting information via laser beams to and from other similar laser communication transceivers. Each transceiver comprises a wavelength locked beacon laser providing a beacon beam. The transceivers determine the precise location of other transceivers by detecting these beacon beams with beacon receive units comprising atomic line filters matched to the beacon wavelength. Signals are transmitted by imposing an electronic signal on laser beams produced by one or more signal laser devices. These signals are directed with precision at other transceivers, and the signal beams are detected with very narrow field of view signal receive units. In a preferred embodiment, these transceivers are installed on 66 satellites in low earth orbit and on selected mountain tops on earth to provide a global communication system.

Abstract translation: 一种激光通信收发器，用于经由激光束向其它类似的激光通信收发器发送信息。 每个收发器包括提供信标光束的波长锁定信标激光器。 收发器通过用包括与信标波长匹配的原子线滤波器的信标接收单元来检测这些信标波束来确定其他收发机的精确位置。 通过在由一个或多个信号激光装置产生的激光束上施加电子信号来传输信号。 这些信号在其他收发器处被精确地引导，并且以非常窄的视场信号接收单元检测信号光束。 在优选实施例中，这些收发器安装在低地球轨道上的66颗卫星和地球上选定的山顶上，以提供全球通信系统。

公开(公告)号：US08351659B2

公开(公告)日：2013-01-08

申请号：US12137435

申请日：2008-06-11

Applicant: Clark D'Souza ,  Irene Chen ,  Shinhak Lee ,  Allen E. Ripingill, Jr.

Inventor： Clark D'Souza ,  Irene Chen ,  Shinhak Lee ,  Allen E. Ripingill, Jr.

IPC: G06K9/00

CPC classification number: G06K9/00597 ,  G06K9/00771

Abstract: An eye detection system, method, and apparatus are disclosed. The eye detection apparatus includes illuminator, receiver, processor, and memory elements. The illuminator emits radiation at predetermined wavelengths from the eye detection apparatus toward an area of interest. Radiation from the area of interest is detected at the receiver which, in turn, provides sensor data to the processor. The processor is coupled to the illuminator and receiver and controls their respective operations. The processor detects a pattern representative of a human eye in the sensor data and determines coordinates of an object corresponding to the pattern. The memory stores the coordinates of the object. Optionally, the eye detection apparatus communicates the coordinates of the object to a wireless device and directs countermeasures to the object's coordinates in response to commands from the wireless device.

Abstract translation: 公开了一种眼睛检测系统，方法和装置。 眼睛检测装置包括照明器，接收器，处理器和存储元件。 照明器将预定波长的辐射从眼睛检测装置发射到感兴趣的区域。 在接收器处检测到感兴趣区域的辐射，接收器又向处理器提供传感器数据。 处理器耦合到照明器和接收器并控制它们各自的操作。 处理器在传感器数据中检测表示人眼的图案，并且确定与图案相对应的对象的坐标。 内存存储对象的坐标。 可选地，眼睛检测装置将对象的坐标传送到无线设备，并且响应于来自无线设备的命令，将对策指向对象的坐标。

公开(公告)号：US20100135670A1

公开(公告)日：2010-06-03

申请号：US12623356

申请日：2009-11-20

Applicant: Paul Amadeo ,  Allen Ripingill ,  David Robinson ,  Irene Chen

Inventor： Paul Amadeo ,  Allen Ripingill ,  David Robinson ,  Irene Chen

IPC: H04B10/00

CPC classification number: H04B10/2587 ,  H04B10/1123

Abstract: A system, method, and communication device are disclosed. The system can include an optical interrogator and a phase-modulating communication device. The communication device can include a retro-optimized lens, a phase modulator, and a processor. The retro-optimized lens can be a non-imaging optical arrangement configured to minimize deviation between an incoming signal and a reflected signal used for return link communications. The processor can be configured to calibrate a modulation path length of the communication device based on a wavelength of the communication signal and can control an operation of the phase-modulator to send phase-coded messages to the interrogator. Optionally, the processor can perform a real-time phase calibration of the communication device using feedback from the interrogator.

Abstract translation: 公开了一种系统，方法和通信设备。 该系统可以包括光学询问器和相位调制通信设备。 通信设备可以包括复现优化镜头，相位调制器和处理器。 复现优化的透镜可​​以是非成像光学装置，其被配置为最小化用于返回链路通信的输入信号和反射信号之间的偏差。 处理器可以被配置为基于通信信号的波长来校准通信设备的调制路径长度，并且可以控制相位调制器的操作以将相位编码的消息发送到询问器。 可选地，处理器可以使用来自询问器的反馈来执行通信设备的实时相位校准。

公开(公告)号：US20090080712A1

公开(公告)日：2009-03-26

申请号：US12137435

申请日：2008-06-11

Applicant: Clark D'Souza ,  Irene Chen ,  Shinhak Lee ,  Allen E. Ripingill, JR.

Inventor： Clark D'Souza ,  Irene Chen ,  Shinhak Lee ,  Allen E. Ripingill, JR.

IPC: G06K9/46 ,  G06K9/00

CPC classification number: G06K9/00597 ,  G06K9/00771

Abstract: An eye detection system, method, and apparatus are disclosed. The eye detection apparatus includes illuminator, receiver, processor, and memory elements. The illuminator emits radiation at predetermined wavelengths from the eye detection apparatus toward an area of interest. Radiation from the area of interest is detected at the receiver which, in turn, provides sensor data to the processor. The processor is coupled to the illuminator and receiver and controls their respective operations. The processor detects a pattern representative of a human eye in the sensor data and determines coordinates of an object corresponding to the pattern. The memory stores the coordinates of the object. Optionally, the eye detection apparatus communicates the coordinates of the object to a wireless device and directs countermeasures to the object's coordinates in response to commands from the wireless device.

Abstract translation: 公开了一种眼睛检测系统，方法和装置。 眼睛检测装置包括照明器，接收器，处理器和存储元件。 照明器将预定波长的辐射从眼睛检测装置发射到感兴趣的区域。 在接收器处检测到感兴趣区域的辐射，接收器又向处理器提供传感器数据。 处理器耦合到照明器和接收器并控制它们各自的操作。 处理器在传感器数据中检测表示人眼的图案，并且确定与图案相对应的对象的坐标。 内存存储对象的坐标。 可选地，眼睛检测装置将对象的坐标传送到无线设备，并且响应于来自无线设备的命令，将对策指向对象的坐标。