公开(公告)号：US20230296501A1

公开(公告)日：2023-09-21

申请号：US17928791

申请日：2021-05-10

Applicant: HORIBA, LTD.

Inventor： Hirotaka YABUSHITA ,  Makoto NAGAOKA

IPC: G01N21/35 ,  G06N20/00

CPC classification number: G01N21/35 ,  G06N20/00 ,  G01N2021/3595 ,  G01N2201/12753

Abstract: An analysis device analyzes a measurement sample based on spectral data obtained from that measurement sample. This analysis device includes a correlation data storage portion that stores correlation data that shows a correlation between spectral data for a reference sample in which total analysis values for a predetermined plurality of components are already known, and a total analysis value of the reference sample, and a calculation main unit that applies the correlation data stored in the correlation data storage portion to the spectral data obtained from the measurement sample, and then calculates the total analysis values of the predetermined plurality of components contained in the measurement sample. The reference sample includes a first reference sample that contains the predetermined plurality of components, and a second reference sample that is consisting of either one or a plurality of the components contained in the first reference sample.

公开(公告)号：US11709130B2

公开(公告)日：2023-07-25

申请号：US17494924

申请日：2021-10-06

Applicant: ASAHI KASEI MICRODEVICES CORPORATION

Inventor： Edson Gomes Camargo ,  Hiroyuki Kato

IPC: G01N21/3504 ,  G01N33/00 ,  G01K13/00

CPC classification number: G01N21/3504 ,  G01K13/00 ,  G01N33/0027 ,  G01N2201/12753

Abstract: Signal output apparatus and concentration measurement system has a light receiving unit and an interface unit provided at a support unit. Light receiving unit receives infrared rays emitted to a measurement target substance, and outputs a detection signal according to received infrared rays. Storage unit stores a parameter according to a characteristic of at least one of a plurality of components including the light receiving unit, the parameter being used for concentration computation of the measurement target substance, as a calibration parameter. Interface unit outputs an output signal including a calibration parameter signal according to the calibration parameter input from the storage unit and a signal based on the detection signal input from the light receiving unit to a signal computation processing unit, without executing the concentration computation. The signal output apparatus corrects a deviation caused by a characteristic variation of each apparatus to realize concentration measurement with high accuracy.

公开(公告)号：US20230204496A1

公开(公告)日：2023-06-29

申请号：US18058455

申请日：2022-11-23

Applicant: ROCKLEY PHOTONICS LIMITED

Inventor： Benjamin VER STEEG ,  Craig GARDNER ,  Haydn Frederick JONES

IPC: G01N21/27

CPC classification number: G01N21/274 ,  G01N2201/121 ,  G01N2201/12753 ,  G01N2201/12792

Abstract: An optical sensor for spectroscopic analysis of a sample, the optical sensor comprising: a photonic integrated chip (PIC) for providing light to the sample, the PIC comprising: one or more laser(s) designed to operate at one or more respective predetermined wavelength(s), each of the one or more laser(s) having an output that is optically coupled to an optical output of the PIC; and a monitor located on the PIC for determining the wavelength of the optical output; the optical sensor further comprising: a detector for collecting a spectrum from the sample; and one or more processors configured to: compare the wavelength of the laser(s) at the optical output with each of their respective predetermined wavelength(s); and if a deviation above a certain threshold is detected between the wavelength of the laser(s) and the predetermined wavelength(s), adapt the collected spectrum to generate a reconstructed spectrum; and use one or more datapoints from the reconstructed spectrum for the spectroscopic analysis.

公开(公告)号：US20170212047A1

公开(公告)日：2017-07-27

申请号：US15312771

申请日：2015-04-07

Applicant: HAMAMATSU PHOTONICS K.K.

Inventor： Shigeru EURA ,  Kengo SUZUKI ,  Kenichiro IKEMURA ,  Kazuya IGUCHI

IPC: G01N21/64 ,  G01J3/443

CPC classification number: G01N21/64 ,  G01J3/0254 ,  G01J3/443 ,  G01N2201/12753

Abstract: An optical measurement device inputs excitation light to an integrating sphere in which a sample is disposed, irradiates the sample with the excitation light having a predetermined beam cross-section, detects measurement light output from the integrating sphere by a photodetector, and acquires intensity data of the sample. The optical measurement device includes a storage unit in which correction data is stored and an optical characteristic calculation unit for calculating optical characteristics of the sample based on the intensity data of the sample and the correction data. The correction data is calculated based on first corrective intensity data and second corrective intensity data. The predetermined beam cross-section is covered with the first light absorbing member and covers the second light absorbing member.

公开(公告)号：US20170131306A1

公开(公告)日：2017-05-11

申请号：US15126789

申请日：2015-03-09

Applicant: Hitachi High-Technologies Corporation

Inventor： Shinji TARUMI ,  Sakuichiro ADACHI ,  Chie YABUTANI ,  Akihisa MAKINO

IPC: G01N35/00 ,  G01N33/86 ,  G01N21/27 ,  G01N21/51 ,  G01N21/59

CPC classification number: G01N35/00871 ,  G01N21/272 ,  G01N21/51 ,  G01N21/59 ,  G01N33/4905 ,  G01N33/86 ,  G01N2021/135 ,  G01N2021/513 ,  G01N2021/825 ,  G01N2201/12753 ,  G01N2201/12792 ,  G16H10/40 ,  G16H50/20

Abstract: An automatic analytical apparatus includes a reaction container for mixing a sample with a reagent to react the sample to the reagent, a measurement unit that irradiates a reaction solution in the reaction container with light and measures the intensity of transmitted light or scattered light, a control unit that processes time-series light intensity data obtained through the measurement in the measurement unit, a storage unit that stores one or more approximation functions each approximating to a time-series change in the light intensity data, and an output unit that outputs a processing result of the control unit. The control unit selects any one of the approximation functions stored in the storage unit, calculates an approximate curve indicating a time-series change in the light intensity data using the selected approximation function, calculates deviation feature information based on deviation information between the light intensity data and the approximate curve, and detects and classifies an abnormality included in the light intensity data using the deviation feature information.

公开(公告)号：US09285306B2

公开(公告)日：2016-03-15

申请号：US13882902

申请日：2011-10-28

Applicant: Calum John MacGregor ,  Desmond Robert Gibson

Inventor： Calum John MacGregor ,  Desmond Robert Gibson

IPC: G01N21/27 ,  G01N21/3504 ,  G01N33/00

CPC classification number: G01N21/27 ,  G01N21/274 ,  G01N21/3504 ,  G01N33/0006 ,  G01N2201/1211 ,  G01N2201/12723 ,  G01N2201/12753 ,  G01N2201/12792

Abstract: An optical absorption gas sensor has an LED light source and a photodiode light detector, a temperature measuring device for measuring the LED temperature and a temperature measuring device for measuring the photodiode temperature. The sensor is calibrated by measuring the response of photodiode current at zero analyte gas concentration and at a reference analyte gas concentration. From these measurement, calibration data taking into account the effect of photodiode temperature on the sensitivity of the photodiode and, independently, the effect of changes in the spectrum of light output by the LED on the light detected by the photodiode with LED temperature can be obtained. Calibration data is written to memory in the gas sensor and in operation of the gas sensor, the output is compensated for both LED and photodiode temperature. The LED and photodiode can therefore be relatively far apart and operate at significantly different temperatures allowing greater freedom of optical pathway design.

Abstract translation: 光吸收气体传感器具有LED光源和光电二极管光检测器，用于测量LED温度的温度测量装置和用于测量光电二极管温度的温度测量装置。 通过测量零分析气体浓度和参考分析物气体浓度下的光电二极管电流的响应来校准传感器。 从这些测量中，考虑到光电二极管温度对光敏二极管的影响的校准数据，并且独立地，可以获得LED输出的光谱的变化对由LED温度由光电二极管检测的光的影响 。 校准数据被写入气体传感器中的存储器，并且在气体传感器的操作中，输出被补偿LED和光电二极管的温度。 因此，LED和光电二极管可以相对较远并且在显着不同的温度下操作，从而允许更大的光路设计自由度。

公开(公告)号：US20150369831A1

公开(公告)日：2015-12-24

申请号：US14762922

申请日：2014-01-22

Applicant: HITACHI HIGH-TECHNOLOGIES CORPORATION

Inventor： Kenichi NISHIGAKI

IPC: G01N35/00 ,  G01N21/03 ,  G01N21/31

CPC classification number: G01N35/00732 ,  G01N21/0332 ,  G01N21/253 ,  G01N21/274 ,  G01N21/314 ,  G01N35/00623 ,  G01N35/025 ,  G01N2021/317 ,  G01N2035/00356 ,  G01N2201/12707 ,  G01N2201/12723 ,  G01N2201/12753

Abstract: An automatic analysis apparatus measures a concentration of an intended component in a biological sample, such as blood or urine, or determines whether such component is contained in the sample or not, and includes a function such that, with respect to the optical system, a part whose lifetime has ended is specified or the degree of deterioration of a part is detected to provide a user with the information. The automatic analyzer has a storage unit for storing a transmitted light distribution for a plurality of wavelengths detected by a receptor element for transmitted light which has passed through a substance to be measured, and a control unit for comparing a first, stored transmitted light distribution with a second transmitted light distribution acquired at the time of measurement to determine a deteriorating part from a plurality of parts based on the result of the comparison and output the result.

Abstract translation: 自动分析装置测量生物样品（例如血液或尿液）中的预期组分的浓度，或者确定该组分是否包含在样品中，并且包括以下功能：使得相对于光学系统， 指定了其寿命结束的部分或检测到部件的劣化程度，以向用户提供信息。 自动分析装置具有：存储单元，存储用于通过待测物质的透射光的受体元件检测的多个波长的透射光分布;以及控制单元，用于将第一存储的透射光分布与 在测量时获取的第二透射光分布，基于比较结果从多个部分确定劣化部分，并输出结果。

公开(公告)号：US20150090869A1

公开(公告)日：2015-04-02

申请号：US14388358

申请日：2013-04-04

Applicant: ADVANCED TELECOMMUNICATIONS RESEARCH INSTITUTE INTERNATIONAL

Inventor： Takeaki Shimokawa ,  Takashi Kosaka ,  Okito Yamashita ,  Masaaki Sato

IPC: G01N21/47

CPC classification number: G01N21/4785 ,  A61B5/0042 ,  A61B5/0073 ,  A61B5/0091 ,  A61B10/0041 ,  G01N2201/121 ,  G01N2201/12753

Abstract: In order to solve a problem that a local optical characteristic-changed region inside an object cannot be accurately estimated, an object observing apparatus includes: a light intensity information acquiring unit that acquires light intensity information received by each light-receiving probe; a light intensity change information acquiring unit that acquires, for each probe set, light intensity change information, from reference light intensity information and light intensity information; an estimating unit that acquires three-dimensional optical characteristic-changed region information, using the light intensity change information; and an output unit that outputs the optical characteristic-changed region information; wherein the estimating unit includes: a correcting part that performs correction according to sensitivity attenuation in accordance with a depth; and a sparseness applying part that introduces sparseness for improving a space resolution, thereby acquiring the optical characteristic-changed region information. Accordingly, it is possible to accurately estimate a local optical characteristic-changed region inside an object.

Abstract translation: 为了解决不能准确地估计对象内的局部光学特性变化区域的问题，物体观测装置包括：光强度信息获取单元，其获取由各受光探针接收的光强度信息; 光强度变化信息获取单元，对于每个探针组，从参考光强度信息和光强度信息获取光强度变化信息; 估计单元，使用光强度变化信息获取三维光学特性变化区域信息; 以及输出单元，其输出所述光学特性变化区域信息; 其中所述估计单元包括：校正部，其根据深度根据灵敏度衰减进行校正; 以及引入稀疏性以提高空间分辨率的稀疏性施加部，从而获取光学特性变化区域信息。 因此，可以精确地估计物体内部的局部光学特性变化区域。

公开(公告)号：US20120211648A1

公开(公告)日：2012-08-23

申请号：US13371414

申请日：2012-02-11

Applicant: DERON L. LINSACUM ,  Nils A. Lavik ,  Greg Kwan

Inventor： DERON L. LINSACUM ,  Nils A. Lavik ,  Greg Kwan

IPC: G01D18/00

CPC classification number: H04N5/33 ,  G01J5/522 ,  G01J2005/0048 ,  G01J2005/0077 ,  G01J2005/106 ,  G01J2005/202 ,  G01N2201/1211 ,  G01N2201/12707 ,  G01N2201/12715 ,  G01N2201/12746 ,  G01N2201/12753 ,  H04N5/361 ,  H04N5/3651 ,  H04N5/3655

Abstract: On-board non-uniformity correction calibration methods for a microbolometer focal plane array in a thermal camera are disclosed. The methods include performing first calculations in the processor unit of the thermal camera to generate and apply a set of coarse correction bias voltages to the detector elements. The method also includes performing calculations in the external computer based on image data collected by the thermal camera with the coarse correction bias voltages applied to the detector elements to generate a set of fine correction bias voltages. The method also includes downloading the fine correction bias voltages to the thermal camera and applying the fine correction voltages to the detector elements to establish a fine calibration of the microbolometer focal plane array.

Abstract translation: 公开了一种用于热照相机中的微测光计焦平面阵列的车载非均匀性校正校准方法。 这些方法包括在热像仪的处理器单元中执行第一次计算，以生成并将一组粗校正偏置电压应用于检测器元件。 该方法还包括基于由热摄像机收集的图像数据在外部计算机中执行计算，其中施加到检测器元件的粗略校正偏置电压以产生一组精细校正偏置电压。 该方法还包括将精细校正偏置电压下载到热摄像机并将精细校正电压施加到检测器元件以建立微测光计焦平面阵列的精细校准。

公开(公告)号：US08010309B2

公开(公告)日：2011-08-30

申请号：US12914866

申请日：2010-10-28

Applicant: Alan P. Lundstedt ,  Allen L. Hall ,  Ching-Hui Tseng

Inventor： Alan P. Lundstedt ,  Allen L. Hall ,  Ching-Hui Tseng

IPC: G06F17/10

CPC classification number: G01N21/274 ,  G01N21/359 ,  G01N35/00712 ,  G01N35/00871 ,  G01N2035/00881 ,  G01N2201/12753 ,  G01N2201/12792

Abstract: A method of analysis, analysis system, program product, apparatus, and method of supplying analysis of value incorporating the use of at least one data acquisition device, a central processor, and a communication link that is connectable between the data acquisition device and the central processor. The central processor is loaded with multivariate calibration models developed for predicting values for various properties of interest, wherein the calibration models are capable of compensating for variations in an effectively comprehensive set of measurement conditions and secondary material characteristics. As so configured, the calibration models can compensate for instrument variance without instrument-specific calibration transfer. Measurement results generated by the central processor can be transmitted to an output device of a user interface.

Abstract translation: 一种分析，分析系统，程序产品，装置和提供分析价值的方法，该方法包括使用至少一个数据采集设备，中央处理器和通信链路，该数据采集设备和数据采集设备与中央 处理器。 中央处理器装载有用于预测感兴趣的各种性质的值的多变量校准模型，其中校准模型能够补偿有效全面的测量条件和次要材料特性的变化。 如此配置，校准模型可以补偿仪器差异，无需仪器特定的校准传输。 由中央处理器生成的测量结果可以被发送到用户界面的输出设备。