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    Method of adjusting brightness of lighting system, and bio-disk drive using the same
    93.
    发明专利
    Method of adjusting brightness of lighting system, and bio-disk drive using the same 审中-公开
    调整照明系统亮度的方法和使用其的生物磁盘驱动器

    公开(公告)号:JP2010243487A

    公开(公告)日:2010-10-28

    申请号:JP2010072291

    申请日:2010-03-26

    Applicant: Samsung Electronics Co Ltd 三星電子株式会社Samsung Electronics Co.,Ltd.

    Inventor: KIM JONG-CHEOL KIM CHUNG-UNG LEE KI-JOO PARK JONG JIN CHO DONG HWI BAE SU BONG

    IPC: G01N35/00 G01N21/01 G01N21/59

    CPC classification number: G01N21/27 G01N2201/0694

    Abstract: PROBLEM TO BE SOLVED: To provide a method of adjusting the brightness of a lighting system for uniformly keeping the brightness of a photographed image from a bio-disk.
    SOLUTION: The method and device for adjusting the brightness of a lighting system used for photographing an image to be analyzed in a bio-disk are provided. This method includes a stage of photographing an analyzing object in the bio-disk, a stage of calculating the brightness to the photographed image of the analyzing object, and a stage of adjusting the brightness of the lighting system used for photographing the analyzing object in the bio-disk based on the difference between the calculated brightness and a target brightness.
    COPYRIGHT: (C)2011,JPO&INPIT

    Abstract translation: 要解决的问题:提供一种调节照明系统的亮度以均匀地保持来自生物盘的拍摄图像的亮度的方法。 提供了用于调整用于拍摄生物盘中要分析的图像的照明系统的亮度的方法和装置。 该方法包括拍摄生物盘中的分析对象的阶段,计算分析对象的拍摄图像的亮度的阶段,以及调整用于拍摄分析对象的照明系统的亮度的阶段 基于计算亮度和目标亮度之间的差异的生物盘。 版权所有(C)2011,JPO&INPIT

    조명 밝기 조정 방법 및 이를 이용한 바이오 디스크 드라이브
    94.
    发明公开
    조명 밝기 조정 방법 및 이를 이용한 바이오 디스크 드라이브 无效
    用于调节光源亮度和使用该光源的生物磁盘驱动器的方法

    公开(公告)号:KR1020100109195A

    公开(公告)日:2010-10-08

    申请号:KR1020090027682

    申请日:2009-03-31

    Applicant: 삼성전자주식회사

    Inventor: 김종철 김충웅 이기주 박종진 조동휘 배수봉

    IPC: H04N5/225 H04N5/57

    CPC classification number: G01N21/27 G01N2201/0694 H04N5/225 H04N5/57

    Abstract: PURPOSE: A method for adjusting the brightness of light sources and a bio-disk drive using the same are provided to reduce the brightness deviation of a photographed image by adjusting the brightness of a lighting apparatus based on the brightness of an image of an analysis target object photographed from a bio disk. CONSTITUTION: A bio disk(11) has a structure for analyzing a biological material, and a camera module(15) photographs an analysis target object of the bio disk. A controller calculates the brightness of an image of the photographed analysis target object. The controller generates a luminance control signal based on the difference between the calculated brightness and the target brightness. A luminance driving unit generates a luminance driving signal based on the luminance control signal, and a lighting unit(13) generates the light having the strength corresponding to the luminance driving signal.

    Abstract translation: 目的:提供一种用于调节光源亮度的方法和使用其的生物盘驱动器,以通过基于分析目标的图像的亮度调节照明装置的亮度来减少拍摄图像的亮度偏差 从生物盘拍摄的物体。 构成:生物盘(11)具有用于分析生物材料的结构,照相机模块(15)拍摄生物盘的分析目标物体。 控制器计算拍摄的分析目标对象的图像的亮度。 控制器基于所计算的亮度和目标亮度之间的差产生亮度控制信号。 亮度驱动单元基于亮度控制信号产生亮度驱动信号,并且照明单元(13)产生具有与亮度驱动信号相对应的强度的光。

    캡슐 충전 기계에서 약제학적 캡슐의 광학적 충전 제어
    95.
    发明公开
    캡슐 충전 기계에서 약제학적 캡슐의 광학적 충전 제어 有权
    胶囊灌装机中药用胶囊的光学填充控制

    公开(公告)号:KR1020100046003A

    公开(公告)日:2010-05-04

    申请号:KR1020107002957

    申请日:2008-07-07

    Applicant: 베링거 인겔하임 인터내셔날 게엠베하

    Inventor: 스퇴켈,페터 비덴벤더,프랑크 크루거토마스

    IPC: G01N21/95 B65B1/48 B07C5/342

    CPC classification number: G01N21/9508 A61J3/074 B07C5/3425 G01F17/00 G01N15/1463 G01N21/274 G01N2015/0096 G01N2015/1497 G01N2201/0694 G01N2201/124 G01N2201/12753 G06T7/0006 G06T2207/10024

    Abstract: The present invention relates to a method for monitoring the filling of a capsule with a medicament, to a corresponding filling method, to the associated apparatuses, and to a computer program for controlling the method and the apparatus. In the monitoring method, after at least part of the capsule has been filled with a predefined filling mass of a predefined closed contour of the medicament, at least the filling mass in the part of the capsule after the filling operation is recorded using digital imaging in a first step, the contour of the filling mass in the part of the capsule is determined from the digital imaging recording in a second step, and the contour is analysed in a third step in order to assess the filling operation in comparison with the predefined contour. The invention provides for external influences on the image properties to be compensated for by controlling the optical system.

    Abstract translation: 本发明涉及一种用于通过药物,相应的填充方法,相关装置以及用于控制该方法和装置的计算机程序来监测胶囊的填充的方法。 在监测方法中,在胶囊的至少一部分已经填充有药物的预定义的闭合轮廓的预定填充物质之后,至少填充操作之后的胶囊部分中的填充质量使用数字成像记录在 第一步骤,在第二步骤中从数字成像记录确定胶囊部分中的填充质量的轮廓,并且在第三步骤中分析轮廓,以便与预定轮廓相比较,评估填充操作 。 本发明通过控制光学系统来提供对补偿图像特性的外部影响。

    Plant sensor
    98.
    发明专利
    Plant sensor 有权
    植物传感器

    公开(公告)号:JP2010054436A

    公开(公告)日:2010-03-11

    申请号:JP2008221625

    申请日:2008-08-29

    Applicant: Topcon Corp 株式会社トプコン

    Inventor: KUMAGAI KAORU AKIYAMA SHUGO

    IPC: G01N21/27 G01N21/47

    CPC classification number: G01N21/3563 A01C21/007 G01J3/02 G01J3/0286 G01J3/108 G01J3/427 G01N21/359 G01N2021/1797 G01N2021/3181 G01N2201/0627 G01N2201/0691 G01N2201/0694 G01N2201/0696

    Abstract: PROBLEM TO BE SOLVED: To provide a sensor apparatus for plants which simplifies the constitution, reduces an effect of a light quantity component due to a disturbance light, simplifies the constitution of an optical system, and correctly and accurately measures the reflectivity of an object whose growing condition is to be measured. SOLUTION: The sensor apparatus includes a light source section 4, comprising a first light-emitting section 9 for periodically emitting a light, and irradiating the object 3 whose growing condition is measured with a first measurement light P1, whose peak wavelength of the light emission intensity is a first wavelength; a second light-emitting section 10 for periodically emitting a light, and irradiating the object 3, whose growing condition is measured with a second measurement light P2, whose peak wavelength of a light emission intensity is a second wavelength; and a light-receiving section 6 for receiving the reflected light from the object 3, whose growing condition is to be measured; a control section for controlling the lights emitted from the first and second light-emitting sections 9, 10 at different timing, an integration-control section 24 for integrating a light reception signal from the light receiving section 6, and outputting an integration signal, and a calculation section 13 for calculating the reflectivity as the ratio of the light quantity of the reflection light to the light quantity of the respective measurement lights P1, P2, and obtaining information, on the growing condition of the object 3 whose growing condition is measured, based on the integration signal from the integration-control section 24. COPYRIGHT: (C)2010,JPO&INPIT

    Abstract translation: 要解决的问题:为了提供一种简化结构的植物传感器装置,降低了由于干扰光引起的光量分量的影响,简化了光学系统的结构,并且正确和准确地测量了反射率 一个要衡量生长条件的物体。 解决方案:传感器装置包括光源部分4,其包括用于周期性地发光的第一发光部分9,并且用第一测量光P1照射其生长条件测量的对象3,第一测量光P1的峰值波长 发光强度是第一波长; 用于周期性发光的第二发光部分10,并且用发光强度的峰值波长为第二波长的第二测量光P2测量其生长条件的对象物3; 以及受光部6,用于接收来自物体3的反射光,其生长条件将被测量; 控制部分,用于控制在不同时刻从第一和第二发光部分9,10发射的光;积分控制部分24,用于对来自光接收部分6的光接收信号进行积分,并输出积分信号,以及 计算部分13,用于计算反射率作为反射光的光量与各个测量光P1,P2的光量的比率,以及获得信息,关于生长条件被测量的对象3的生长条件, 基于集成控制部分24的积分信号。版权所有:(C)2010,JPO&INPIT

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