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    Augmented Sight and Sensing System
    5.
    发明申请
    Augmented Sight and Sensing System 审中-公开
    增强视力和感应系统

    公开(公告)号:US20130333266A1

    公开(公告)日:2013-12-19

    申请号:US13915772

    申请日:2013-06-12

    Applicant: Bradley H. Gose Larry R. Echols Robert E. White J. Michael Chambers

    Inventor: Bradley H. Gose Larry R. Echols Robert E. White J. Michael Chambers

    IPC: F41G1/00 G01J1/04

    CPC classification number: F41G1/00 F41G1/30 G01J1/0219 G01J1/0411 G01J1/0466

    Abstract: An augmented sight and sensing system that allows both improved pointing accuracy and improved detail of sensing information through a plurality of means that superimposes situation-relevant information on a target image in a manner that allows a composite image, with or without additional sensed information, to be detected at one or more subsequent sensory locations or devices. The system includes beam-splitting means to divide incoming light beams from a target image into two separate beams, one beam that may be collected by a first sensor (such as seen by an observer's eye or alternate sensor such as a camera) and the other collected by a second imaging sensor or module, and means to generate and superimpose information (such as a reticle) on the target image seen by both, and means to collect and transmit the composite image and information.

    Abstract translation: 增强的视觉和感测系统,其允许改进的指点精度和改进的感测信息的细节,通过多种方式,其以允许或不附加感测信息的合成图像将目标图像上的情境相关信息叠加在目标图像上 在一个或多个后续感觉位置或装置处检测。 该系统包括分束装置,用于将来自目标图像的入射光束分成两个单独的光束,一个光束可以由第一传感器(例如由观察者的眼睛或替代的传感器,例如照相机观察)收集,另一个 由第二成像传感器或模块收集,以及在两者所看到的目标图像上产生和叠加信息(例如光罩)的装置,以及用于收集和发送合成图像和信息的装置。

    Spatial scanning means for a photometer
    6.
    发明授权
    Spatial scanning means for a photometer 失效
    光度计的空间扫描方式

    公开(公告)号:US4279507A

    公开(公告)日:1981-07-21

    申请号:US69779

    申请日:1979-08-27

    Applicant: Thomas H. Bulpitt

    Inventor: Thomas H. Bulpitt

    IPC: G01J1/04 G02B26/10 G02B27/17

    CPC classification number: G01J1/04 G01J1/0403 G01J1/0455 G01J1/0466 G02B26/108 G01J1/0271

    Abstract: A scanning device adapted to be associated with a radiant energy measuring meter such as a luminance photometer to provide precision linear or angular scanning across an area of an object or a subject being measured without relative movement of the meter or subject. A scanning device which includes an optical assembly having an objective lens and a prism movable as a unit along or about the optical axis portion of light beams reflected or folded by and between the prisms whereby light received by the photometer is on the optical axis of the photometer regardless of the position of the movable optical assembly on the folded optical axis portion. Means are provided for moving the movable optical assembly linearly with respect to the optical axis portion for linear transverse scanning of a subject area or rotatively about said optical axis portion for angular scanning of a subject area. A scanning device for a luminance photometer which provides scanning microphotometric capability as, for example, to determine luminous cross-section of a cathode ray tube display.

    Abstract translation: 扫描装置,其适于与诸如亮度光度计的辐射能量测量仪相关联,以在被测量的物体或被摄体的区域上提供精确的线性或角度扫描,而没有所述仪表或被摄体的相对运动。 一种扫描装置,其包括具有物镜的光学组件和可沿着或围绕由棱镜反射或折射的光束的光轴部分作为单元移动的棱镜,由此光度计接收的光在该光学组件的光轴上 无论移动光学组件在折叠的光轴部分上的位置如何,都是光度计。 提供了用于相对于光轴部分线性地移动可移动光学组件以用于对象区域的线性横向扫描或者围绕所述光轴部分旋转地移动可移动光学组件以用于对象区域的角度扫描的装置。 一种用于提供扫描微光度能力的亮度光度计的扫描装置,例如用于确定阴极射线管显示器的发光横截面。

    SCOPE CAMERA SYSTEM
    7.
    发明申请
    SCOPE CAMERA SYSTEM 有权
    范围相机系统

    公开(公告)号:US20150319377A1

    公开(公告)日:2015-11-05

    申请号:US14701438

    申请日:2015-04-30

    Applicant: Redrock Microsystems, LLC

    Inventor: James D. Hurd

    IPC: H04N5/28 F41G1/38 G01J1/04

    CPC classification number: F41G1/38 G01J1/04 G01J1/0411 G01J1/0414 G01J1/0466 H04N5/28

    Abstract: An imaging device has an optoelectronic detector, a beam splitter, a field lens, a mirror, a control circuit, a memory and a power source disposed within a housing. The housing is configured to be mounted in an optical path of a scope. The optoelectronic detector is mounted outside of the optical path of the scope. The beam splitter is mounted in line with the optical path of the scope. The field lens is mounted in line with a reflected optical path of the beam splitter. The mirror is mounted such that the reflected optical path of the beam splitter from the field lens is reflected to the optoelectronic detector. The control circuit is connected to the optoelectronic detector. The memory is connected to the control circuit. A user interface is mounted on the housing and connected to the control circuit. The power source is connected to the control circuit.

    Abstract translation: 成像装置具有设置在壳体内的光电检测器,分束器,场透镜,反射镜,控制电路,存储器和电源。 壳体被配置成安装在示波器的光路中。 光电检测器安装在示波器的光路外。 分束器与示波器的光路一致安装。 场透镜安装成与分束器的反射光路一致。 镜子被安装成使得分束器从场透镜的反射光路被反射到光电检测器。 控制电路连接到光电检测器。 存储器连接到控制电路。 用户界面安装在壳体上并连接到控制电路。 电源连接到控制电路。

    Partial discharge measuring apparatus using UV sensor array and method thereof
    8.
    发明授权
    Partial discharge measuring apparatus using UV sensor array and method thereof 有权
    使用紫外线传感器阵列的部分放电测量装置及其方法

    公开(公告)号:US08076648B2

    公开(公告)日:2011-12-13

    申请号:US12472923

    申请日:2009-05-27

    Applicant: Kil Mok Shong Young Seok Kim

    Inventor: Kil Mok Shong Young Seok Kim

    IPC: G01J1/42

    CPC classification number: G01J1/429 G01J1/02 G01J1/0219 G01J1/0242 G01J1/0266 G01J1/04 G01J1/0466 G01J1/4228 G01R31/14

    Abstract: Disclosed herein is a method and apparatus for measuring partial discharge using a UV sensor array. The apparatus includes a UV sensor array including plural sensors detecting UV rays from an analyzing target of a power facility at a location separated a predetermined distance from the target and converting the UV rays into discharge current, an image measurement unit measuring the distance between the sensor array and the target and supplying an actual image of the target, a UV intensity detection unit measuring intensity of the discharge current converted from the UV rays detected by the sensor array, and a UV location detection unit analyzing and outputting a UV emitting location obtained by matching the discharge current intensity measured by the UV intensity detection unit to combined data of the actual image of the target supplied from the image measurement unit and sensor locations of the sensor array.

    Abstract translation: 本文公开了一种使用UV传感器阵列测量局部放电的方法和装置。 该装置包括:紫外线传感器阵列,其包括多个传感器,该传感器检测在与目标分离预定距离并将紫外线转换成放电电流的位置处的电力设施的分析目标的紫外线;图像测量单元,其测量传感器 阵列和目标,并提供目标的实际图像; UV强度检测单元,测量从由传感器阵列检测的紫外线转换的放电电流的强度;以及UV位置检测单元,分析并输出通过 将由UV强度检测单元测量的放电电流强度与从图像测量单元提供的目标的实际图像和传感器阵列的传感器位置的组合数据进行匹配。

    Photometer
    9.
    发明授权
    Photometer 失效
    光度计

    公开(公告)号:US4737029A

    公开(公告)日:1988-04-12

    申请号:US856579

    申请日:1986-04-25

    Applicant: Kenji Yabusaki Hitoshi Tozawa Akira Noda Takashi Ito

    Inventor: Kenji Yabusaki Hitoshi Tozawa Akira Noda Takashi Ito

    IPC: G01J1/08 G01J1/24 G01J1/42 G01J1/44

    CPC classification number: G01J1/02 G01J1/0228 G01J1/04 G01J1/0414 G01J1/0418 G01J1/0466 G01J1/08 G01J2001/086 G01J2001/242

    Abstract: A photometer is providing including light detecting means for detecting incident light and generating electric signals in response thereto as a measure of the incident light thereon, and optical means for guiding light to the light detecting means from a standard light source in a calibration mode and from an object, a photometric quantity of which is to be measured, in a measurement mode. Control means are adapted to generate calibration control signals for carrying out a calibration mode wherein a photometric quantity value Dstd of the standard light source and a measured value Rstd corresponding to the intensity of the standard light source detected by the light detecting means are stored in a memory, and light measurement control signals for carrying out a measurement mode wherein a photometric quantity value Rm corresponding to the photometric quantity of the object measured by the light detecting means is also stored in memory such that a CPU or similar computing means can communicate with the memory and compute a photometric quantity value R of the object according to the formulaR=Rm.times.(Dstd/Rstd).

    Abstract translation: 提供了一种光度计,其包括用于检测入射光并响应于其产生电信号的光检测装置作为其上的入射光的量度;以及光学装置,用于以标准模式从标准光源引导光到光检测装置, 在测量模式中要测量的物体,其光度量。 控制装置适于产生用于执行校准模式的校准控制信号,其中标准光源的光度值Dstd和由光检测装置检测到的标准光源的强度对应的测量值Rstd存储在 存储器和光测量控制信号,用于执行测量模式,其中与由光检测装置测量的对象的光度相对应的光度值Rm也存储在存储器中,使得CPU或类似计算装置可以与 存储并根据公式R = Rmx(Dstd / Rstd)计算对象的测光量值R.

    SYSTEM AND METHOD FOR FEEDBACK CONTROL IN SCANNING PROJECTORS
    10.
    发明申请
    SYSTEM AND METHOD FOR FEEDBACK CONTROL IN SCANNING PROJECTORS 审中-公开
    用于扫描投影仪中的反馈控制的系统和方法

    公开(公告)号:WO2017112481A1

    公开(公告)日:2017-06-29

    申请号:PCT/US2016/066551

    申请日:2016-12-14

    Applicant: MICROVISION, INC.

    Inventor: JACKSON, Robert, James

    IPC: G01N21/88 G02B26/10 G01N21/95

    CPC classification number: H04N9/3194 G01J1/0425 G01J1/0466 G02B3/0006 G02B26/101 G02B26/105 G02B27/0101 G02B2027/011 H04N3/08 H04N9/14 H04N9/3135 H04N9/3161

    Abstract: A scanning projector (100) and method is provided that generates a feedback signal from at least one photodetector (110). In the scanning projector, a scanning mirror (104) is configured to reflect laser light into an image region and an over scanned region. The at least one photodetector is configured to receive a portion of the reflected laser light impacting the over scanned region, and provides the feedback signal responsive to the received portion of light. This feedback signal can then be used to provide precise control of the scanning mirror.

    Abstract translation: 提供了一种扫描投影仪(100)和方法,其产生来自至少一个光电检测器(110)的反馈信号。 在扫描投影仪中,扫描镜(104)被配置为将激光反射到图像区域和过扫描区域。 所述至少一个光电检测器被配置为接收撞击过扫描区域的反射激光的一部分,并且响应于所接收的光部分提供反馈信号。 这个反馈信号可以用来精确控制扫描镜。

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