公开(公告)号：US20160080611A1

公开(公告)日：2016-03-17

申请号：US14851383

申请日：2015-09-11

Applicant: Mamoru YORIMOTO ,  Nobuyuki SATOH ,  Kenji MORITA ,  Masaya KAWARADA ,  Masahiro HIRANUMA ,  Daisaku HORIKAWA

Inventor： Mamoru YORIMOTO ,  Nobuyuki SATOH ,  Kenji MORITA ,  Masaya KAWARADA ,  Masahiro HIRANUMA ,  Daisaku HORIKAWA

IPC: H04N1/60 ,  H04N1/028 ,  G01J3/50 ,  H04N1/04

CPC classification number: H04N1/6094 ,  G01J3/0262 ,  G01J3/0291 ,  G01J3/50 ,  G01J3/501 ,  G01J3/52 ,  H04N1/02895 ,  H04N1/04 ,  H04N1/6044 ,  H04N1/6075 ,  H04N2201/0081 ,  H04N2201/0082

Abstract: An imaging device comprises: a light source; a two-dimensional image sensor that receives reflected light from a subject containing specular light of the light source and outputs an image of the subject; a light transmission member disposed in an optical path of light emitted from the light source to the subject; and a light shielding unit that, when a position on the subject at which light from the light source is regularly reflected and enters the two-dimensional image sensor is defined as a first specular position, whereas a position on the light transmission member at which light from the light source is regularly reflected and enters the two-dimensional image sensor is defined as a second specular position, shields the light directed from the light source toward the second specular position without shielding the light directed from the light source toward the first specular position.

Abstract translation: 一种成像装置包括：光源; 二维图像传感器，其接收来自包含所述光源的镜面光的被检体的反射光，并输出被检体的图像; 光传输部件，设置在从所述光源发射到所述被摄体的光的光路中; 以及遮光单元，其将来自所述光源的光定时反射并进入二维图像传感器的被摄体上的位置定义为第一镜面位置，而在所述光传输构件上的位置 从光源经常反射并进入二维图像传感器被定义为第二镜面位置，将从光源引导的光屏蔽到第二镜面位置，而不将从光源引导的光屏蔽到第一镜面位置 。

公开(公告)号：US09222833B2

公开(公告)日：2015-12-29

申请号：US14718499

申请日：2015-05-21

Applicant: Manabu Seo ,  Naohiro Kamijo ,  Kohei Shimbo

Inventor： Manabu Seo ,  Naohiro Kamijo ,  Kohei Shimbo

IPC: G01J3/28 ,  G01J3/02

CPC classification number: G01J3/2823 ,  G01J3/02 ,  G01J3/0205 ,  G01J3/0208 ,  G01J3/0216 ,  G01J3/0229 ,  G01J3/0262 ,  G01J3/0294 ,  G01J3/04 ,  G01J3/26 ,  G01J3/2803 ,  G01J3/51 ,  G01J3/513 ,  G01J2003/2806 ,  H04N9/045

Abstract: A spectral characteristic obtaining apparatus including a light irradiation unit configured to emit light onto a reading object; a spectroscopic unit configured to separate at least a part of diffused reflected light from the light emitted onto the reading object by the light irradiation unit into a spectrum; and a light receiving unit configured to receive the diffused reflected light separated into the spectrum by the spectroscopic unit and to obtain a spectral characteristic. The light receiving unit is configured to be a spectroscopic sensor array including plural spectroscopic sensors arranged in a direction, and the spectroscopic sensors include a predetermined number of pixels arranged in the direction to receive lights with different spectral characteristics from each other.

Abstract translation: 一种光谱特征获取装置，包括被配置为将光发射到读取对象上的光照射单元; 分光单元，被配置为将由所述光照射单元发射到所述读取对象的光的漫反射光的至少一部分分离成光谱; 以及光接收单元，被配置为接收由分光单元分离成光谱的扩散反射光并获得光谱特性。 光接收单元被配置为包括沿方向排列的多个分光传感器的分光传感器阵列，并且分光传感器包括沿着彼此具有不同光谱特性的光的方向排列的预定数量的像素。

公开(公告)号：US09222831B2

公开(公告)日：2015-12-29

申请号：US14234663

申请日：2012-05-28

Applicant: Takafumi Yokino ,  Katsumi Shibayama ,  Masaki Hirose ,  Katsuhiko Kato

Inventor： Takafumi Yokino ,  Katsumi Shibayama ,  Masaki Hirose ,  Katsuhiko Kato

IPC: G01J3/28 ,  G01J3/02 ,  G01J3/18 ,  G01J3/24

CPC classification number: G01J3/0205 ,  G01J3/0202 ,  G01J3/0256 ,  G01J3/0262 ,  G01J3/0291 ,  G01J3/1838 ,  G01J3/24 ,  G01J3/2803 ,  G01J2003/1852

Abstract: A spectroscope comprises a package provided with a light entrance part, a plurality of lead pins penetrating through a support part opposing the light entrance part in the package, a light detection unit supported on the support part within the package, and a spectroscopic unit supported on the support part within the package so as to be arranged on the support part side of the light detection unit. The light detection unit has a light transmission part for transmitting therethrough light incident thereon from the light entrance part. The spectroscopic unit has a spectroscopic part for spectrally resolving the light transmitted through the light transmission part while reflecting the light to a light detection part. The lead pins are fitted into fitting parts provided with the light detection unit and electrically connected to the light detection part.

Abstract translation: 分光镜包括设置有光入射部的多个引线，穿过与封装体内的光入射部相对的支撑部的多个引脚，支撑在封装内的支撑部上的光检测部， 所述支撑部分在所述包装内，以布置在所述光检测单元的所述支撑部分侧上。 光检测单元具有用于透射从入射部入射到其上的光的光透射部。 分光单元具有分光部分，用于在将光反射到光检测部分的同时光谱分辨透过透光部分的光。 导引针安装在配备有光检测单元的配件中并电连接到光检测部件。

公开(公告)号：US20150369662A1

公开(公告)日：2015-12-24

申请号：US14764924

申请日：2013-01-30

Applicant: OtO PHOTONICS INC.

Inventor： Chien-Hsiang Hung ,  Jan Liang Yeh

IPC: G01J3/02 ,  G01J3/28

CPC classification number: G01J3/0218 ,  G01J3/0208 ,  G01J3/0262 ,  G01J3/18 ,  G01J3/2803

Abstract: The present application discloses an optical sensing module, an optical mechanism of a spectrometer, and a spectrometer. An optical sensing module according to one embodiment comprises an optical sensing component and an optical fiber. The optical sensing component includes at least a row of optical sensing units. The optical fiber is made of a transparent material and has a cylindrical curved surface. A side of the cylindrical curved surface faces the optical sensing units to converge at least a portion of an incident light received by the optical sensing units. With techniques of the present application, the amount of light collected at the optical sensing component can be increased for it to be suitable for applications such as miniaturized apparatuses and systems, thus improving the overall efficiency of optical reception and utilization therein.

Abstract translation: 本申请公开了一种光学传感模块，光谱仪的光学机构和光谱仪。 根据一个实施例的光学传感模块包括光学感测部件和光纤。 光学传感部件包括至少一行光学感测单元。 光纤由透明材料制成，具有圆柱形曲面。 圆柱形曲面的一侧面向光学感测单元以会聚由光学感测单元接收的入射光的至少一部分。 利用本申请的技术，可以增加在光学传感部件处收集的光量，使其适合于诸如小型化设备和系统的应用，从而提高其中光学接收和利用的总体效率。

公开(公告)号：US20150300879A1

公开(公告)日：2015-10-22

申请号：US14702461

申请日：2015-05-01

Applicant: VERIFOOD, LTD.

Inventor： Damian GOLDRING ,  Dror SHARON ,  Guy BRODETZKI ,  Amit RUF ,  Menahem KAPLAN ,  Sagee ROSEN ,  Omer KEILAF ,  Uri KINROT ,  Kai ENGELHARDT ,  Ittai NIR

IPC: G01J3/26 ,  G01J3/02

CPC classification number: G01J3/108 ,  G01J3/0205 ,  G01J3/0208 ,  G01J3/0229 ,  G01J3/0256 ,  G01J3/0259 ,  G01J3/0262 ,  G01J3/0264 ,  G01J3/0272 ,  G01J3/0291 ,  G01J3/10 ,  G01J3/12 ,  G01J3/26 ,  G01J3/28 ,  G01J3/2803 ,  G01J3/36 ,  G01J3/45 ,  G01J5/0265 ,  G01J5/10 ,  G01J2003/1226 ,  G01J2003/123 ,  G01J2003/1239 ,  G01N21/255 ,  G01N33/02

Abstract: A spectrometer comprises a plurality of isolated optical channels comprising a plurality of isolated optical paths. The isolated optical paths decrease cross-talk among the optical paths and allow the spectrometer to have a decreased length with increased resolution. In many embodiments, the isolated optical paths comprise isolated parallel optical paths that allow the length of the device to be decreased substantially. In many embodiments, each isolated optical path extends from a filter of a filter array, through a lens of a lens array, through a channel of a support array, to a region of a sensor array. Each region of the sensor array comprises a plurality of sensor elements in which a location of the sensor element corresponds to the wavelength of light received based on an angle of light received at the location, the focal length of the lens and the central wavelength of the filter.

Abstract translation: 光谱仪包括多个隔离光通道，其包括多个隔离光路。 孤立的光路减少光路之间的串扰，并允许光谱仪具有降低的分辨率的长度。 在许多实施例中，隔离的光路包括隔离的平行光路，其允许基本上减小器件的长度。 在许多实施例中，每个隔离的光路从滤光器阵列的滤光片延伸穿过透镜阵列的透镜，通过支撑阵列的通道延伸到传感器阵列的区域。 传感器阵列的每个区域包括多个传感器元件，其中传感器元件的位置对应于基于在该位置接收的光的角度接收的光的波长，透镜的焦距和透镜的中心波长 过滤。

公开(公告)号：US20150238135A1

公开(公告)日：2015-08-27

申请号：US14198074

申请日：2014-03-05

Applicant: Shabbir Bakir Bambot ,  Mark Faupel ,  Jonathan David Mongin

Inventor： Shabbir Bakir Bambot ,  Mark Faupel ,  Jonathan David Mongin

IPC: A61B5/00

CPC classification number: A61B5/4331 ,  A61B5/0059 ,  A61B5/0068 ,  A61B5/0071 ,  A61B5/0075 ,  A61B5/0077 ,  G01J3/02 ,  G01J3/0208 ,  G01J3/0218 ,  G01J3/0229 ,  G01J3/0232 ,  G01J3/0262 ,  G01J3/0264 ,  G01J3/027 ,  G01J3/0272 ,  G01J3/0283 ,  G01J3/0291 ,  G01J3/10 ,  G01J3/28 ,  G01J3/4406 ,  G01J2003/1213 ,  G01J2003/2866 ,  G01N21/274 ,  G01N21/31 ,  G01N21/474 ,  G01N21/645 ,  G01N2021/6417 ,  G01N2021/6423 ,  G01N2021/6484 ,  G01N2201/0221

Abstract: A method and apparatus are provided that interrogate, receive, and analyze full emission spectra for at least one fluorescence excitation wavelength and for at least one reflectance measurement to determine tissue characteristics and correlate same to photographic images. Further, the system and method accomplish this measurement rapidly by increasing the light throughput by integrating optics into a hand held unit and avoiding the need for a coherent fiber optic bundle being used. The method includes illuminating a first portion of a target tissue with optical energy, forming a first image of the target tissue, illuminating a second portion of the target tissue with optical energy, performing spectroscopic measurements on optical energy reflected and/or emitted by the target tissue upon illumination of the second portion of the target tissue with optical energy, and determining tissue characteristics of the target tissue based on the results of the spectroscopic measurements.

Abstract translation: 提供了一种方法和装置，用于询问，接收和分析至少一种荧光激发波长的全发射光谱，以及至少一种反射测量以确定组织特征并将其与摄影图像相关联。 此外，该系统和方法通过将光学器件集成到手持式单元中并且避免对使用的相干光纤束的需要而增加光通量而快速地完成该测量。 该方法包括用光能照射目标组织的第一部分，形成目标组织的第一图像，用光能照射目标组织的第二部分，对目标反射和/或发射的光能进行光谱测量 基于光谱测量的结果确定目标组织的第二部分的光能量的组织，以及确定靶组织的组织特征。

公开(公告)号：US09118874B2

公开(公告)日：2015-08-25

申请号：US13800001

申请日：2013-03-13

Applicant: Hiroshi Matsumoto ,  Nobuyuki Satoh ,  Yasuyuki Suzuki ,  Mamoru Yorimoto ,  Masato Kobayashi ,  Yuichi Sakurada ,  Suguru Yokozawa ,  Tatsuhiko Okada ,  Tomokazu Kanzawa ,  Daisaku Horikawa

Inventor： Hiroshi Matsumoto ,  Nobuyuki Satoh ,  Yasuyuki Suzuki ,  Mamoru Yorimoto ,  Masato Kobayashi ,  Yuichi Sakurada ,  Suguru Yokozawa ,  Tatsuhiko Okada ,  Tomokazu Kanzawa ,  Daisaku Horikawa

IPC: G06F3/12 ,  G06K15/12 ,  H04N1/40 ,  G06T5/00 ,  H04N1/60 ,  G01J3/02 ,  G01J3/46 ,  G01J3/52

CPC classification number: H04N1/6033 ,  G01J3/0208 ,  G01J3/0262 ,  G01J3/0291 ,  G01J3/0297 ,  G01J3/462 ,  G01J3/52 ,  G01J3/524 ,  H04N1/6044

Abstract: An image capturing device includes a sensor unit that captures a predetermined range including a subject; a reference chart that is captured by the sensor unit together with the subject; an illumination light source that illuminates the subject and the reference chart; a lens member including one or more lenses arranged in an optical path of reflected light extending from the subject and the reference chart to the sensor unit; and a lens moving unit that moves at least one lens of the lens member so as to change a position thereof in a direction along the optical path.

Abstract translation: 图像捕获装置包括：捕获包括被摄体的预定范围的传感器单元; 由传感器单元与被摄体一起捕获的参考图; 照明对象和参考图的照明光源; 透镜构件，包括布置在从被摄体延伸的反射光的光路中的一个或多个透镜和参考图表到传感器单元; 以及透镜移动单元，其移动透镜构件的至少一个透镜，以便沿着光路的方向改变其位置。

公开(公告)号：US20150204511A1

公开(公告)日：2015-07-23

申请号：US14413887

申请日：2013-07-09

Applicant: Heptagon Micro Optics Pte. Ltd.

Inventor： Hartmut Rudmann ,  Markus Rossi

IPC: F21V7/00 ,  F21V13/02 ,  G01J1/04 ,  G02B7/182 ,  G01J1/02

CPC classification number: F21V7/0033 ,  F21V13/02 ,  G01J1/0271 ,  G01J1/0407 ,  G01J3/0205 ,  G01J3/0256 ,  G01J3/0262 ,  G01J3/0264 ,  G01J3/0291 ,  G01J3/1804 ,  G02B5/10 ,  G02B7/003 ,  G02B7/021 ,  G02B7/182 ,  G02B17/023 ,  G02B27/4244 ,  H01L27/14601 ,  H01L31/02325 ,  Y10T29/49826

Abstract: The optical module (1) comprises—a first member (O) having a first face (F1) which is substantially planar;—a second member (P) having a second face (F2) facing the first face (F1), which is substantially planar and is aligned substantially parallel to the first face;—a third member (S) comprised in the first member (O) or comprised in the second member (P) or distinct from and located between these, which comprises an opening (4);—a mirror element (31′; 31′″) present on the second face (F2); and—an active optical component (26) present on the second face (F2) and electrically connected to the second member (P); wherein at least one of the first and second members comprises one or more transparent portions (t) through which light can pass. The method for manufacturing the optical module (1) comprises the steps of a) providing a first wafer; b) providing a second wafer on which the mirror elements (31′. . . ) are present; c) providing a third wafer, wherein the third wafer is comprised in the first wafer or is comprised in the second wafer or is distinct from these, and wherein the third wafer comprises openings (4); e) forming a wafer stack comprising these wafers; wherein at least one of the first wafer and the second wafer comprises transparent portions (t) through which light can pass.

Abstract translation: 光学模块（1）包括：具有基本上平面的第一面（F1）的第一构件（O）; - 具有面向第一面（F1）的第二面（F2）的第二构件（P） 基本上平面且基本上平行于第一面排列; - 包括在第一构件（O）中或包含在第二构件（P）中或与之不同的第三构件（S），其包括开口（4） ）; - 存在于所述第二面（F2）上的镜子元件（31'; 31“）; 和存在于所述第二面（F2）上的电连接到所述第二构件（P）的有源光学部件（26）。 其中所述第一和第二构件中的至少一个包括光可以通过的一个或多个透明部分（t）。 制造光学模块（1）的方法包括以下步骤：a）提供第一晶片; b）提供其上存在镜子元件（31'）的第二晶片; c）提供第三晶片，其中所述第三晶片包括在所述第一晶片中或包含在所述第二晶片中或与所述第三晶片不同，并且其中所述第三晶片包括开口（4）; e）形成包括这些晶片的晶片堆叠; 其中所述第一晶片和所述第二晶片中的至少一个包括光可以通过的透明部分（t）。

公开(公告)号：US20150177129A1

公开(公告)日：2015-06-25

申请号：US14400323

申请日：2013-05-07

Applicant: PANARIDUS, LLC

Inventor： Michael Fraley

IPC: G01N21/359 ,  G01N33/00

CPC classification number: G01N21/359 ,  G01J3/0262 ,  G01J3/42 ,  G01N21/255 ,  G01N21/3563 ,  G01N21/84 ,  G01N33/0098 ,  G01N2021/8466 ,  G01N2201/0216 ,  G01N2201/061 ,  G01N2201/068 ,  G01N2201/129

Abstract: A system and method for in-field near infrared spectroscopy (NIRS) analysis of rubber and resin concentrations a guayule plant is provided. The system includes a wagon or other vehicle with the NIRS device mounted on the wagon. A computer or processor electrically coupled to the NIRS device is also housed within an area or extension of the wagon. During measurement of a guayule plant in the field, a guayule plant covering is placed over the guayule plant and a light shield coupled to the NIRS device is inserted into an opening on the guayule plant covering. The NIRS device is configured to perform a reading of the guayule plant within the plant covering and communicate results of the reading to the computer. A calibration equation is then preferably applied to the guayule plant readings to produce the rubber and resin concentrations of the guayule plant.

Abstract translation: 提供了一种用于野外近红外光谱（NIRS）分析橡胶和树脂浓度的系统和方法。 该系统包括一个货车或其他车辆，其中NIRS装置安装在货车上。 电耦合到NIRS装置的计算机或处理器也容纳在货车的区域或延伸部内。 在测量现场的果仁植物的过程中，将果皮植物覆盖物放置在鸟类植物上，并且将耦合到NIRS装置的遮光器插入到植物植物覆盖物的开口中。 NIRS设备被配置为执行对植物中植物的读取，覆盖并将读取的结果传达给计算机。 然后优选将校准方程应用于果胶植物读数以产生花椰菜植物的橡胶和树脂浓度。

公开(公告)号：US09057645B2

公开(公告)日：2015-06-16

申请号：US14501718

申请日：2014-09-30

Applicant: RAH COLOR TECHNOLOGIES LLC

Inventor： Richard A. Holub

IPC: G01J3/28 ,  G01J3/02 ,  G01J3/46 ,  G01J3/52 ,  G09G5/02 ,  H04N1/60 ,  G01J3/51 ,  G03F7/20 ,  G01J3/18

CPC classification number: H04N9/646 ,  G01B11/002 ,  G01J3/02 ,  G01J3/0218 ,  G01J3/0224 ,  G01J3/0262 ,  G01J3/0291 ,  G01J3/1838 ,  G01J3/28 ,  G01J3/2823 ,  G01J3/46 ,  G01J3/462 ,  G01J3/463 ,  G01J3/465 ,  G01J3/505 ,  G01J3/51 ,  G01J3/524 ,  G01J2003/283 ,  G01J2003/2866 ,  G03F7/70058 ,  G06T5/005 ,  G06T5/40 ,  G06T7/90 ,  G09G5/02 ,  G09G2320/0276 ,  G09G2320/043 ,  G09G2320/0606 ,  G09G2320/0626 ,  G09G2320/066 ,  G09G2320/0666 ,  G09G2320/0693 ,  G09G2320/08 ,  H04N1/6055 ,  H04N1/6058 ,  H04N9/643 ,  H04N9/69 ,  H04N17/02

Abstract: In a color imaging system, multiple rendering devices are provided at different nodes along a network. Each rendering device has a color measurement instrument for calibrating the color presented by the rendering device. A rendering device may be a printer in which the measuring of color samples on a sheet rendered by the printer is provided by a sensor coupled to a transport mechanism which moves the sensor and sheet relative to each other, where the sensor provides light from the samples to a spectrograph. A rendering device may also be a display having a member supporting a color measuring instrument for receiving light from an area of the screen. The color measuring instruments provide for non-contact measurements of color samples rendered on a display or a sheet, and are self-calibrating by the use of calibration references.

Abstract translation: 在彩色成像系统中，沿网络的不同节点提供多个渲染设备。 每个渲染设备具有用于校准由渲染设备呈现的颜色的颜色测量仪器。 渲染设备可以是其中由打印机呈现的片材上的颜色样本的测量由耦合到传送机构的传感器提供的传感器和片材相对于彼此移动的打印机，其中传感器提供来自样品的光 到一个光谱仪。 呈现装置也可以是具有支撑用于从屏幕的区域接收光的颜色测量装置的部件的显示器。 色彩测量仪器提供在显示器或纸张上呈现的彩色样本的非接触式测量，并通过使用校准参考进行自校准。