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1
CN212363098U
基于模拟人眼光学成像的笔记本外壳检测设备
Grant
Publication/Patent Number: CN212363098U Publication Date: 2021-01-15 Application Number: 202021960981.1 Filing Date: 2020-09-10 Inventor: 陈翠红   姜巍   Assignee: 常州微亿智造科技有限公司   IPC: G01B11/00 Abstract: 本实用新型涉及一种基于模拟人眼光学成像的笔记本外壳检测设备,具有工作平台,机架上机架,工作平台上设有备料工位,还设有第一检测区和第二检测区,第一检测区和第二检测区相邻设置在工作平台上,备料工位上设有第一真空平台和第二真空平台,备料工位上还设有转移装置,第一真空平台的滑动方向和第二真空平台的滑动方向平行设置,第一检测区内设有第一拍摄组件和第二拍摄组件,第一拍摄组件包括第一照射光源及第一线扫相机,各组第二拍摄组件均包括第二照射光源和第二线扫相机;第二检测区内设有多组第三拍摄组件,各组第三拍摄组件均包括第三照射光源和第三线扫相机。本实用新型能够有序高效的进行笔记本外壳的检测,实用高效。
2
CN112180550A
一种通过共窗口接收双波段的光学分光装置及其应用
Substantial Examination
Publication/Patent Number: CN112180550A Publication Date: 2021-01-05 Application Number: 202011096293.X Filing Date: 2020-10-14 Inventor: 鲜伟   朱国强   常大英   张俊峰   魏文彬   高东海   方勇强   Assignee: 湖北华中光电科技有限公司   IPC: G02B13/00 Abstract: 本发明涉及一种通过共窗口接收双波段的光学分光装置及其在摄像测距设备方面的应用。该装置包括共用透镜组、反射镜组、成像透镜组、雪崩管探测器、电视探测器,其中反射镜组设置在共用透镜组与成像透镜组之间,共用透镜组、成像透镜组、电视探测器沿同一条光轴排布;所述反射镜组的两个反射镜平行且与光轴成一定角度设置在共用透镜组两端,雪崩管探测器正对其中一个反射镜的出光面;外界入射的主光线穿过共用透镜组、成像透镜组后进入电视探测器成像,实现拍照或摄像功能;外界入射的其余光线穿过共用透镜组后,被反射镜组反射至雪崩管探测器,实现测距功能。该装置具有结构简单、制造成本低、体积小、重量轻、易携带、用途广、适配性强等优点。
3
EP3489643B1
FOURIER TRANSFORM SPECTROPHOTOMETER
Publication/Patent Number: EP3489643B1 Publication Date: 2021-01-27 Application Number: 18204852.0 Filing Date: 2018-11-07 Inventor: Kamikake, Tadafusa   Assignee: Shimadzu Corporation   IPC: G01J3/453
4
EP3771883A2
DISPERSIVE OPTICAL DEVICE
Publication/Patent Number: EP3771883A2 Publication Date: 2021-02-03 Application Number: 20188443.4 Filing Date: 2020-07-29 Inventor: Ota, Takefumi   Assignee: CANON KABUSHIKI KAISHA   IPC: G01B9/00 Abstract: An optical device disperses a wavelength of light and includes: a dispersion element configured to transmit incident light and disperse the incident light so that an optical path is different for each wavelength and to generate first dispersed light; and a reflection unit including four reflection surfaces sequentially reflecting the first dispersed light. The first dispersed light sequentially reflected from the four reflection surfaces is incident on the dispersion element and is transmitted through the dispersion element.
5
CN112384748A
光子处理系统和方法
Public
Publication/Patent Number: CN112384748A Publication Date: 2021-02-19 Application Number: 201980046744.8 Filing Date: 2019-05-14 Inventor: N·c·哈里斯   D·布南达尔   C·拉米   Assignee: 轻物质公司   IPC: G01B9/00 Abstract: 各方面涉及光子处理系统、光子处理器和执行矩阵‑向量乘法的方法。光编码器可以将输入向量编码成第一多个光信号。光子处理器可以接收第一多个光信号;对第一多个光信号执行多个运算,该多个运算实现输入向量与矩阵的矩阵乘法;并且输出表示输出向量的第二多个光信号。光接收器可以检测第二多个光信号并且输出输出向量的电数字表示。
6
CN108571926B
光学测量装置以及光学测量装置用适配器
Grant
Publication/Patent Number: CN108571926B Publication Date: 2020-07-10 Application Number: 201711360139.7 Filing Date: 2017-12-15 Inventor: 保理江胜   Assignee: 欧姆龙株式会社   IPC: G01B9/00 Abstract: 本发明提供一种光学测量装置以及光学测量装置用适配器,用于在传感器头与控制器分离的光学测量装置中,方便地管理校准数据。光学测量装置包括:控制器,包含投光部、受光部及控制部;头部,包含光学系统与缆线;以及适配器,可电性或光学连接于头部的缆线及控制器地构成,且可装卸于缆线及控制器地构成。适配器包含ROM,所述ROM存储有用于对头部的测量值进行修正的校准数据。
7
CN111928779A
基于模拟人眼光学成像的笔记本外壳检测设备
Substantial Examination
Publication/Patent Number: CN111928779A Publication Date: 2020-11-13 Application Number: 202010943936.3 Filing Date: 2020-09-10 Inventor: 陈翠红   姜巍   Assignee: 常州微亿智造科技有限公司   IPC: G01B11/00 Abstract: 本发明专利涉及一种基于模拟人眼光学成像的笔记本外壳检测设备,具有工作平台,机架上机架,工作平台上设有备料工位,还设有第一检测区和第二检测区,第一检测区和第二检测区相邻设置在工作平台上,备料工位上设有第一真空平台和第二真空平台,备料工位上还设有转移装置,第一真空平台的滑动方向和第二真空平台的滑动方向平行设置,第一检测区内设有第一拍摄组件和第二拍摄组件,第一拍摄组件包括第一照射光源及第一线扫相机,各组第二拍摄组件均包括第二照射光源和第二线扫相机;第二检测区内设有多组第三拍摄组件,各组第三拍摄组件均包括第三照射光源和第三线扫相机。本发明能够有序高效的进行笔记本外壳的检测,实用高效。
8
US10576016B2
Methods and systems for managing photographic capture
Publication/Patent Number: US10576016B2 Publication Date: 2020-03-03 Application Number: 15/825,208 Filing Date: 2017-11-29 Inventor: Eda, Sasikanth   Ghuge, Deepak   Jain, Abhishek   Patil, Sandeep   Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATION   IPC: A61H99/00 Abstract: Embodiments for managing photographic capture by one or more processors are described. An image is received. The image includes at least one individual and is associated with a location. A signal indicative of a recommendation with respect to a posture of the at least one individual in the image is generated based on information associated with the at least one individual, the location, or a combination thereof.
9
ES2738907A1
DISPOSITIVO, SISTEMA Y PROCEDIMIENTO DE CARACTERIZACION DE ELEMENTOS REFLECTORES A PARTIR DE LOS HACES DE LUZ REFLEJADOS EN LOS MISMOS
Publication/Patent Number: ES2738907A1 Publication Date: 2020-01-27 Application Number: 201830756 Filing Date: 2018-07-25 Inventor: Heras, Vila Carlos   SÁnchez, GonzÁlez Marcelino   Izquierdo, NÚÑez David   Salina, Ariz Iñigo   Peña, Lapuente Adrián   Les, Aguerrea Iñigo   Mutuberria, Larrayoz Amaia   Assignee: FUNDACIÓN CENER-CIEMAT   IPC: G01B11/00
10
EP3634203A1
SPACE DIVISION MULTIPLEXING OPTICAL COHERENCE TOMOGRAPHY USING AN INTEGRATED PHOTONIC DEVICE
Publication/Patent Number: EP3634203A1 Publication Date: 2020-04-15 Application Number: 18798592.4 Filing Date: 2018-05-14 Inventor: Zhou, Chao   Assignee: Lehigh University   IPC: A61B3/00
11
CN111212592A
使用集成光子器件的空分复用光学相干层析成像技术
Substantial Examination
Publication/Patent Number: CN111212592A Publication Date: 2020-05-29 Application Number: 201880046277.4 Filing Date: 2018-05-14 Inventor: 周超   Assignee: 周超   IPC: A61B3/00 Abstract: 本发明公开了一种公开了适合空分复用光学相干断层扫描的集成光子芯片、相关系统和方法。在一个实施例中,所述光子芯片包含:一个衬底;一个光输入端口,从外部光源接收入射采样光;多个光输出端口,配置为从芯片向样品发射多条采样光束,以便采集该样品的扫描图像;多个在衬底里的互联的和分支的波导通道。分光器区的波导通道将采样光束分裂成输出端口的多条采样光束。在时间延迟区域,波导通道与每个输出端口相连的终端部分有着不同的预定长度,以便在采样光束之间产生光学时间延迟。在一些实施例中,所述芯片进一步包含了一个干涉仪区,以便产生干涉图案。
12
US10670495B2
Systems and methods for determining the quality of a reproduced (manufactured) optic device
Publication/Patent Number: US10670495B2 Publication Date: 2020-06-02 Application Number: 16/430,060 Filing Date: 2019-06-03 Inventor: Conrad, Fabian   Bakaraju, Ravi Chandra   Ehrmann, Klaus   Assignee: Brien Holden Vision Institute Limited   IPC: G01B9/00 Abstract: A method for assessing the similarity between a power profile of a manufactured optic device and a nominal power profile upon which the power profile of the manufactured optic device is based. The method comprises measuring the power profile of manufactured optic device, identifying a region of interest from the measured power profile of manufactured optic device, and applying an offset to the measured power profile to substantially minimize a statistical quantifier for quantifying the similarity between the nominal power profile and the offset measured power profile. The method further comprises comparing the offset and the statistical quantifier to predefined quality control metrics, determining whether the measured power profile meets the predefined quality control metrics based, at least in part on the comparison. In exemplary embodiments, the method may further comprise determining whether to associate the manufactured optic device with another nominal power profile, if the measured power profile does not meet the predefined quality control metrics.
13
US10716476B2
Methods to improve axial resolution in optical coherence tomography
Publication/Patent Number: US10716476B2 Publication Date: 2020-07-21 Application Number: 15/509,170 Filing Date: 2015-10-06 Inventor: Liu, Xinyu   Liu, Linbo   Assignee: NANYANG TECHNOLOGICAL UNIVERSITY   IPC: A61B5/00 Abstract: Methods are proposed to improve axial resolution in optical coherence tomography (OCT). In one aspect, the method comprises: obtaining a k-space interferogram of an OCT spectral image; uniformly reshaping the k-space interferogram to a quasi-stationary interferogram by extracting a source envelope; fitting a spectral estimation model to the quasi-stationary interferogram; and calculating an axial depth profile using the fitted spectral estimation model.
14
US10670391B2
Confocal optical protractor
Publication/Patent Number: US10670391B2 Publication Date: 2020-06-02 Application Number: 16/171,883 Filing Date: 2018-10-26 Inventor: Rumala, Yisa S.   Assignee: Northrop Grumman Systems Corporation   IPC: G01B11/26 Abstract: A confocal optical protractor for simultaneously measuring roll angle, pitch angle and yaw angle of an element that includes a tunable laser source generating a laser beam and an SPPR device responsive to the laser beam. The protractor also includes a beam splitter receiving and splitting an output beam from the SPPR device, and a lens being responsive to and projecting the split beam onto the element and being responsive to a reflected beam from the element. The protractor further includes a measurement detector responsive to the reflected beam from the element, where the reflected beam is imaged by the lens onto the measurement detector, and a processor receiving and processing image data from the measurement detector and generating the pitch, yaw and roll angles from the data, where the image data includes an orientation of an vortex intensity pattern in the split beam.
15
US10876923B2
Apparatus, system and method of determining one or more optical parameters of a lens
Publication/Patent Number: US10876923B2 Publication Date: 2020-12-29 Application Number: 16/539,142 Filing Date: 2019-08-13 Inventor: Limon, Ofer   Bachar, Haim   Altmark, Nir   Levy, Shahar   Assignee: 6 OVER6 VISION LTD.   IPC: G01B9/00 Abstract: Some demonstrative embodiments include apparatuses, systems and/or methods of determining one or more optical parameters of a lens of eyeglasses. For example, a product may include one or more tangible computer-readable non-transitory storage media including computer-executable instructions operable to, when executed by at least one computer processor, enable the at least one computer processor to implement operations of determining one or more optical parameters of a lens of eyeglasses. The operations may include processing at least one image of an object captured via the lens; and determining the one or more optical parameters of the lens based on the at least one image.
16
US10706521B2
Inspection method
Publication/Patent Number: US10706521B2 Publication Date: 2020-07-07 Application Number: 14/232,480 Filing Date: 2012-07-13 Inventor: Cho, Soo-young   Assignee: KOH YOUNG TECHNOLOGY INC.   IPC: G01B9/00 Abstract: To inspect a board, first, a measurement area is set on the board and a reference data of the measurement area is obtained. Then, a measurement data of the measurement area is obtained per colors, and a lighting condition is set using the reference data of the measurement area and the measurement data obtained per colors. Next, a feature object in the measurement area is set, and a distortion quantity between the reference data and the measurement data is obtained by comparing the reference data corresponding to the feature object and the measurement data corresponding to the feature object obtained under the lighting condition. Then, an inspection area is set by compensating the distortion quantity. Therefore, it is possible to compensate the distortion and set precisely the inspection area.
17
CN108139650B
线扫描成像中的实时聚焦
Grant
Publication/Patent Number: CN108139650B Publication Date: 2020-10-30 Application Number: 201680055451.2 Filing Date: 2016-09-23 Inventor: 邹云陆   艾伦·欧森   卡伦·萨利格玛   陈露比   陪门·拿玛巴帝   魁格·卡达   Assignee: 徕卡生物系统公司   IPC: G03B13/00 Abstract: 一种用于采集显微镜载片上的样品的数字图像的系统。在一个实施方案中,所述系统包括载物台,所述载物台被构造来支撑样品;物镜,所述物镜具有与所述载物台正交的单个光轴;成像传感器;以及聚焦传感器。所述系统还包括至少一个光束分离器,所述至少一个光束分离器光学地耦合到所述物镜并且被构造来接收对应于所述物镜的所述光轴的视野,并且同时地向所述成像传感器提供所述视野的至少第一部分并向所述聚焦传感器提供所述视野的至少第二部分。所述聚焦传感器可在多个不同焦距处同时采集图像和/或同时采集一对镜像,所述图像各自包括在多个不同焦距处采集的像素。
18
EP3372783B1
METHODS FOR MONITORING COMPONENTS USING MICRO AND MACRO THREE-DIMENSIONAL ANALYSIS
Publication/Patent Number: EP3372783B1 Publication Date: 2020-05-13 Application Number: 18158111.7 Filing Date: 2018-02-22 Inventor: Germann, Bryan J.   Hovis, Gregory Lee   Assignee: General Electric Company   IPC: F01D5/00
19
EP3701217A1
SPECTROMETERS WITH SELF-COMPENSATION OF MISALIGNMENT
Publication/Patent Number: EP3701217A1 Publication Date: 2020-09-02 Application Number: 18870058.7 Filing Date: 2018-10-29 Inventor: Lee, Jae Hyung   Kim, Youngsik   Na, Yeul   Kang, Juhyung   Assignee: Stratio   IPC: G01B9/00
20
US10712233B2
Apparatus, system and method of determining one or more optical parameters of a lens
Publication/Patent Number: US10712233B2 Publication Date: 2020-07-14 Application Number: 15/572,893 Filing Date: 2016-05-10 Inventor: Limon, Ofer   Bachar, Haim   Altmark, Nir   Levy, Shahar   Assignee: 6 OVER 6 VISION LTD.   IPC: G01B9/00 Abstract: Some demonstrative embodiments include apparatuses, systems and/or methods of determining one or more optical parameters of a lens of eyeglasses. For example, a product may include one or more tangible computer-readable non-transitory storage media including computer-executable instructions operable to, when executed by at least one computer processor, enable the at least one computer processor to implement operations of determining one or more optical parameters of a lens of eyeglasses. The operations may include processing at least one image of an object captured via the lens; and determining the one or more optical parameters of the lens based on the at least one image.
Total 114 pages