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1. 发明申请

US20180172600A1 CHARACTERIZING THE EMISSION PROPERTIES OF SAMPLES 审中-公开
公开(公告)号：US20180172600A1
公开(公告)日：2018-06-21
申请号：US15838880
申请日：2017-12-12
申请人： Roche Diagnostics Operations, Inc.
发明人： Joachim Wietzorrek
IPC分类号： G01N21/88 , G02B17/08 , G03F7/20
CPC分类号： G01N21/8806 , G01J1/0411 , G01J1/0437 , G01J1/0448 , G01J1/4228 , G01J1/4257 , G01J2001/4247 , G01N21/534 , G01N2021/4711 , G02B5/005 , G02B13/0005 , G02B17/0808 , G02B17/0856 , G02B21/0016 , G02B21/26 , G02B27/0025 , G03F7/70225 , G03F7/70341 , G03F7/70591
摘要： The present disclosure relates to a method for characterizing a light source. The method includes providing a light source to be characterized, collecting light emitted from the light source by using imaging optics, the imaging optics generating a pupil of the collected light emitted from the light source, generating an image of a pupil of light emitted only from a first surface area of the light source at a detector using the imaging optics, laterally shifting the light source and the imaging optics relative to each other and after the lateral shift, generating an image of a pupil of light emitted only from a second surface area of the light source at the detector using the imaging optics. The imaging optics includes a field stop between the light source and the detector to select a portion of the light source's surface from which light is imaged at a time.

2. 发明申请

US20170176736A1 ENDOSCOPIC SYSTEM 有权
公开(公告)号：US20170176736A1
公开(公告)日：2017-06-22
申请号：US14971127
申请日：2015-12-16
申请人： Canon U.S.A., Inc.
发明人： Akira Yamamoto , Minoru Tsuji
IPC分类号： G02B23/24 , G02B7/02
CPC分类号： G02B23/2476 , G02B7/021 , G02B7/025 , G02B13/06 , G02B17/0808 , G02B17/0896 , G02B23/243 , G02B23/2469
摘要： This disclosure an optical unit having a plurality of structural elements such as lens and a spacer having two or more opposing surfaces of the plurality of structural elements are bonded and secured to each other. A contact portion of the bonding portion is configured to prevent spreading of an adhesive and an adhesive reservoir is provided at the bonding portion. This disclosure further provides an apparatus having an imaging optical system configured to image a side surface in a tubular passage and an illuminating optical system that is arranged centrally within the imaging optical system.

3. 发明授权

US09568718B2 Catadioptric lens system and image pickup unit 有权
标题翻译：反射折射透镜系统和摄像单元
公开(公告)号：US09568718B2
公开(公告)日：2017-02-14
申请号：US14030043
申请日：2013-09-18
申请人： Sony Corporation
发明人： Kodai Nagamatsu , Takeshi Hatakeyama
IPC分类号： G02B17/08 , H04N5/225
CPC分类号： G02B17/0804 , G02B17/08 , G02B17/0808 , H04N5/2254
摘要： A catadioptric lens system includes: a first lens group including a concave mirror and a convex mirror and having positive refractive power; a second lens group having positive refractive power; and a third lens group having negative refractive power, the first to third lens groups being provided, in order, on a light path of incident light and in a direction of travel of the incident light.
摘要翻译：反射折射透镜系统包括：第一透镜组，包括凹面镜和凸面镜，具有正的折射光焦度; 具有正屈光力的第二透镜组; 以及具有负屈光力的第三透镜组，第一至第三透镜组依次设置在入射光的光路和入射光的行进方向上。

4. 发明申请

US20160370562A1 CO-APERTURE BROADBAND INFRARED OPTICAL SYSTEM 有权
标题翻译： CO-APERTURE宽带红外光学系统
公开(公告)号：US20160370562A1
公开(公告)日：2016-12-22
申请号：US15106699
申请日：2015-02-10
申请人： HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY
发明人： Hong ZHANG , Jindong FEI , TIanxu ZHANG , Xiaobing DAI , XIangyan LIU , Li LIU
IPC分类号： G02B17/08 , G01J3/28 , G02B27/14 , G02B1/11 , G02B13/14 , G02B27/00
CPC分类号： G02B17/0808 , G01J3/2823 , G02B1/11 , G02B7/182 , G02B13/146 , G02B27/0025 , G02B27/142
摘要： The present invention discloses a co-aperture broadband infrared optical system, belonging to the field of infrared optical system. The system realizes long wave infrared (LWIR) imaging and broadband infrared spectrum measurement, and solves the problems of limited optical path layout, large volume and high cost of an optical system. The present invention includes a Cassegrain lens, a spectroscope, a reflector, several lens groups, an FPA interface and an optical fiber interface. Light (2 μm˜12 μm) is incident to the Cassegrain lens to be focused, then is split by the spectroscope, where 50% of the LWIR light (8 μm˜10 μm) passes through the lens group for aberration correction, and the image plane is focused again at the imaging interface. The other 50% of the LWIR light (8 μm˜10 μm) and the infrared reflected light (2 μm˜8 μm and 10 μm˜12 μm) pass through the lens group, and are reflected by the reflector, then focused at the optical fiber interface. The present invention is compact in overall structure and convenient and flexible to use, has relatively low cost, and can be integrated into an image-spectrum associated detection device to implement automatic detection and tracking, which can be widely used in civil and military fields such as environmental monitoring and infrared guidance.
摘要翻译：本发明公开了一种属于红外光学系统领域的共孔宽带红外光学系统。该系统实现长波红外（LWIR）成像和宽带红外光谱测量，解决了光学系统光路布局有限，体积大，成本高的问题。本发明包括卡塞格伦透镜，分光镜，反射器，多个透镜组，FPA接口和光纤接口。光（2μm〜12μm）入射到Cassegrain透镜进行聚焦，然后被分光镜分离，其中50％的LWIR光（8μm〜10μm）通过透镜组进行像差校正，图像平面再次聚焦在成像界面。另外50％的LWIR光（8μm〜10μm）和红外反射光（2μm〜8μm，10μm〜12μm）通过透镜组，被反射体反射，然后聚焦在光纤接口。本发明整体结构紧凑，使用方便灵活，成本相对较低，可以集成到图像相关检测装置中，实现自动检测和跟踪，可广泛应用于民用和军事领域作为环境监测和红外线指导。

5. 发明授权

US09507129B2 Apparatus comprising a compact catadioptric telescope 有权
标题翻译：装置包括紧凑的反射折射望远镜
公开(公告)号：US09507129B2
公开(公告)日：2016-11-29
申请号：US14580001
申请日：2014-12-22
申请人： Duke University
发明人： Daniel Marks , David Jones Brady , Nathan Adrian Hagen
IPC分类号： G02B13/00 , G02B17/08 , H04N5/225 , G02B23/06
CPC分类号： G02B13/0065 , G02B17/0808 , G02B17/0856 , G02B23/06 , H04N5/2254
摘要： A camera system for a mobile device includes an array of compact catadioptric telescopes wherein at least some of the telescopes have a portion of their aperture truncated. At least some of the catadioptric telescopes in the array are tilted with respect to the system optical axis.
摘要翻译：用于移动设备的照相机系统包括紧凑的反射折射望远镜阵列，其中至少一些望远镜的一部分孔径被截断。阵列中的至少一些反射折射望远镜相对于系统光轴倾斜。

6. 发明申请

US20160227112A1 IMAGING DEVICE 审中-公开
标题翻译：成像装置
公开(公告)号：US20160227112A1
公开(公告)日：2016-08-04
申请号：US15015650
申请日：2016-02-04
申请人： FUJIFILM Corporation
发明人： Shuji ONO
IPC分类号： H04N5/232 , G02B13/00 , H04N5/378 , H04N5/225 , H04N9/04 , G02B3/00 , G02B17/08
CPC分类号： H04N5/23238 , G02B3/0056 , G02B13/0065 , G02B13/009 , G02B17/0808 , G02B17/0896 , G02B27/1066 , G02B27/123 , G03B15/00 , G03B17/02 , H04N5/2254 , H04N5/2259 , H04N5/378 , H04N9/045
摘要： The present invention provides an imaging device capable of greatly reducing the assignment number of light reception cells assigned to each microlens of an array lens and increasing the number of pixels of images having different characteristics that are captured simultaneously. One aspect of the present invention is an imaging device that includes an imaging optical system including a center optical system (wide-angle lens) and an annular optical system (telescopic lens) that share an optical axis, an image sensor, and an array lens arranged on the incidence side of the image sensor and including microlenses (pupil imaging lenses). The array lens causes annular pupil images corresponding to the annular optical system adjacent to each other among a center pupil image and annular pupil images formed on the image sensor by the respective microlenses to partially overlap each other on the image sensor.
摘要翻译：本发明提供一种成像装置，其能够大大减少分配给阵列透镜的每个微透镜的光接收单元的分配数量，并且增加同时捕获的具有不同特征的图像的像素数。本发明的一个方面是一种成像装置，其包括成像光学系统，该成像光学系统包括共享光轴的中心光学系统（广角镜头）和环形光学系统（望远镜）），图像传感器和阵列透镜布置在图像传感器的入射侧并且包括微透镜（瞳孔成像透镜）。阵列透镜在中心瞳孔图像和形成在图像传感器上的环形光瞳图像之间相应于环形光学系统的环形瞳孔图像通过相应的微透镜在图像传感器上部分地彼此重叠。

7. 发明申请

US20160188985A1 LENS ASSEMBLY, OBSTACLE DETECTING UNIT USING THE SAME, AND MOVING ROBOT HAVING THE SAME 有权
标题翻译：镜头组件，使用其的OBSTACLE检测单元和具有相同功能的移动机器人
公开(公告)号：US20160188985A1
公开(公告)日：2016-06-30
申请号：US14883773
申请日：2015-10-15
申请人： SAMSUNG ELECTRONICS CO., LTD.
发明人： Jong-il KIM , Suk-june YOON , Shin KIM , Kyung-shik ROH , Soon-yong PARK , Sang-sik YOON , Seung-jae PARK
IPC分类号： G06K9/00 , G02B13/06 , B25J9/16 , G05D1/00 , G05D1/02 , B25J5/00 , G02B17/08 , H04N5/225
CPC分类号： G06K9/00805 , A47L2201/04 , B25J5/00 , B25J9/1666 , G01S7/4816 , G01S17/46 , G01S17/936 , G02B13/06 , G02B17/00 , G02B17/08 , G02B17/0808 , G02B17/0812 , G02B17/086 , G05D1/0088 , G05D1/0238 , G05D1/0246 , G05D2201/0203 , H04N5/2254 , Y10S901/01
摘要： An obstacle detecting unit includes a reflective mirror formed to reflect light which is incident from a front area and a lower portion of the front area below a central portion of the reflective mirror; a catadioptric lens disposed coaxially with the reflective mirror in an upper portion of the reflective mirror, the catadioptric lens on which light incident from the front area and an upper portion of the front area; and an image forming module disposed coaxially with the reflective mirror below the reflective mirror, the image forming module on which the light reflected by the reflective mirror is incident, wherein a through hole is formed in the central portion of the reflective mirror, and the light coming out of the catadioptric lens passes through the through hole and then is incident on the image forming module.
摘要翻译：障碍物检测单元包括反射镜，反射镜形成为反射从反射镜的中心部分的正面区域的前部区域和下部入射的光; 在反射镜的上部与反射镜同轴设置的反射折射透镜，反射折射透镜，从前区域入射的光和前区域的上部; 以及图像形成模块，其与所述反射镜下方的所述反射镜同轴地配置，所述图像形成模块，由所述反射镜反射的光入射到所述图像形成模块，其中，在所述反射镜的中心部分形成有通孔，从反折射透镜出来的光通过通孔，然后入射到成像模块上。

8. 发明申请

US20160187631A1 IRIS RECOGNITION LENS SYSTEM 有权
标题翻译： IRIS识别镜头系统
公开(公告)号：US20160187631A1
公开(公告)日：2016-06-30
申请号：US14684029
申请日：2015-04-10
申请人： Sekonix Co., Ltd.
发明人： Soon Chul Choi , Chang S. Jegal , Yang S. Kim , Young J. Lee
IPC分类号： G02B17/08 , G02B13/24 , G02B13/18 , G02B1/04 , G02B13/00
CPC分类号： G02B17/0808 , G02B3/02 , G02B13/0095 , G02B13/06 , G02B13/18 , G02B13/24 , G02B17/023 , G02B17/0856
摘要： An iris recognition lens system including a first lens and a second lens disposed on an optical axis and sequentially from an object to take an image of an iris and a pupil. A front part of the first lens includes a reflecting area in a central portion and a transmitting area in a circumferential portion. A rear part of the first lens includes a concave transmitting area in a central portion and a reflecting area in a circumferential portion. The second lens is disposed at a rear of the transmitting area in the central portion of the rear part of the first lens. A plurality of reflecting areas and a plurality of transmitting areas are provided in a single lens in order to reduce the length of the lens and increase a focal length, thereby reducing the length of the entire iris recognition lens system.
摘要翻译：一种虹膜识别透镜系统，包括设置在光轴上的第一透镜和第二透镜，并且从物体顺序地取出虹膜和瞳孔的图像。第一透镜的前部包括在中心部分的反射区域和周向部分中的透射区域。第一透镜的后部包括在中心部分的凹透射区域和周向部分中的反射区域。第二透镜设置在第一透镜的后部的中心部分的透射区域的后部。多个反射区域和多个透射区域设置在单个透镜中以便减小透镜的长度并增加焦距，从而减小整个虹膜识别透镜系统的长度。

9. 发明授权

US09366853B2 Multiple petal deployable telescope 有权
标题翻译：多花瓣可部署望远镜
公开(公告)号：US09366853B2
公开(公告)日：2016-06-14
申请号：US14612155
申请日：2015-02-02
申请人： Trent Newswander , Blake Crowther , James Champagne , Kendall B. Johnson
发明人： Trent Newswander , Blake Crowther , James Champagne , Kendall B. Johnson
IPC分类号： G02B23/20 , B64G1/22 , G02B17/08 , G02B23/06 , B64G1/66 , B64G1/10
CPC分类号： G02B23/20 , B64G1/222 , B64G1/66 , B64G2001/1028 , G02B17/0808 , G02B23/06
摘要： An opto-mechanical deployable telescope includes a hub, at least one deployable multiple petal primary mirror mounted to the hub, a deployment assembly, a secondary optic assembly, and a deployment engine assembly. The deployment assembly is operable to move the at least one primary mirror between a stowed position and a deployed position. The deployment engine assembly is operable to power the deployment assembly using stored mechanical energy. The deployment assembly includes a kinematic or semi-kinematic interface between the hub and the at least one primary mirror to hold petals of the at least one primary mirror in alignment relative to each other in the deployed position. The secondary optic assembly comprising a secondary optical member and is operable to axially position the secondary optical member relative to the primary mirror.
摘要翻译：光机械部署式望远镜包括轮毂，至少一个可部署的多个花瓣主镜，安装到轮毂，展开组件，次光学组件和展开发动机组件。部署组件可操作以在收起位置和展开位置之间移动至少一个主反射镜。部署发动机组件可操作以使用所存储的机械能来为展开组件供电。所述部署组件包括所述轮毂和所述至少一个主镜之间的运动学或半运动学界面，以在所述展开位置中相对于彼此对准所述至少一个主反射镜的瓣。所述次光学组件包括次级光学构件并且可操作以相对于所述主反射镜轴向地定位所述次级光学构件。

10. 发明授权

US09244264B1 Gimbaled multispectral imaging system and method 有权
标题翻译：平衡多光谱成像系统及方法
公开(公告)号：US09244264B1
公开(公告)日：2016-01-26
申请号：US14303355
申请日：2014-06-12
申请人： Sandia Corporation
发明人： Kevin H. Brown , Seferino Crollett , Tammy D. Henson , Mathew Napier , Peter G. Stromberg
IPC分类号： G01J5/02 , G02B23/12 , G02B23/02
CPC分类号： G02B23/12 , G02B17/0808 , G02B17/0896 , G02B23/02 , G02B23/04 , G02B23/16
摘要： A gimbaled multispectral imaging system and method is described herein. In an general embodiment, the gimbaled multispectral imaging system has a cross support that defines a first gimbal axis and a second gimbal axis, wherein the cross support is rotatable about the first gimbal axis. The gimbaled multispectral imaging system comprises a telescope that fixed to an upper end of the cross support, such that rotation of the cross support about the first gimbal axis causes the tilt of the telescope to alter. The gimbaled multispectral imaging system includes optics that facilitate on-gimbal detection of visible light and off-gimbal detection of infrared light.
摘要翻译：本文描述了万向成像多光谱成像系统和方法。在一般实施例中，万向成像多光谱成像系统具有限定第一万向节轴线和第二万向节轴线的交叉支撑件，其中所述横向支撑件围绕所述第一万向节轴线可旋转。平衡多光谱成像系统包括固定到十字支架的上端的望远镜，使得十字支架围绕第一万向节轴的旋转导致望远镜的倾斜改变。万向成像的多光谱成像系统包括有助于可见光的万能检测和红外光的万无一失的检测的光学元件。

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