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    • 1. 发明授权
    • Humidity control system
    • 湿度控制系统
    • US5598971A
    • 1997-02-04
    • US516097
    • 1995-08-17
    • Dale E. WintherRobert H. Killen
    • Dale E. WintherRobert H. Killen
    • B01F3/04F24F6/14B01F3/02G05D21/00
    • B01F3/04021F24F6/14F24F11/0015Y02B30/545
    • The present invention provides a capacitive humidity transducer based humidity control system. The present invention comprises a humidity sensor, a temperature source for the heated cabinet air, a temperature source at the sensor, and a regulated water mist discharged into the cabinet air circulation system. An electronic system combines the input from the sensor, the temperature inputs, and the humidity percentage setting to regulate the timing and duration of the water mist discharge, thereby allowing to adjust percentage of humidity in heated holding cabinets. The sensor is a capacitor comprising two plates in close proximity but insulated from each other. The electrical output of the capacitor is sensitive to moisture on the surfaces between the plates. By cooling one plate until it reaches its dew point, the signal is detected and received by the electronic system. Cooling of the capacitor plate is accomplished by means of a thermoelectric cooler. When cabinet humidity falls below a predetermined threshold value and a corresponding change in capacitance of the capacitive sensor is detected, the humidity control system turns on a water mister to spray water into cabinet air flow until a desired relative humidity level is reached in the heated cabinet.
    • 本发明提供一种基于电容式湿度传感器的湿度控制系统。 本发明包括湿度传感器,用于加热的机柜空气的温度源,传感器处的温度源和排放到机柜空气循环系统中的调节的水雾。 电子系统结合了传感器的输入,温度输入和湿度百分比设置,以调节水雾排放的时间和持续时间,从而允许调节加热的保温柜中的湿度百分比。 该传感器是一个电容器,包括两个彼此靠近但彼此隔离的板。 电容器的电气输出对板之间的表面的水分敏感。 通过冷却一个板直到达到其露点,该信号被电子系统检测和接收。 通过热电冷却器来实现电容器板的冷却。 当机柜湿度低于预定阈值并检测到电容式传感器的相应电容变化时,湿度控制系统打开水箱,将水喷入柜内空气流中,直到加热柜内达到所需的相对湿度水平 。
    • 2. 发明授权
    • Method for measuring the concentration of a substance using advanced image processing techniques
    • 使用先进的图像处理技术测量物质浓度的方法
    • US08144960B2
    • 2012-03-27
    • US12245523
    • 2008-10-03
    • Dale E. Winther
    • Dale E. Winther
    • G06K9/00A61B3/14A61B5/00
    • A61B5/14532A61B5/7257
    • A method and system for non-invasively measuring the concentration of an optically-active substance in a subject are provided. The system includes a light source adapted to transmit light towards a subject or object having a concentration of an optically-active substance, a polarizer positioned between the light source and the subject, an image capturing device, and a processor. The image capturing device is positioned to receive light reflected from the subject and create a measured image therefrom. The measured image defines measured light intensity data. The processor is configured to calculate a concentration of the optically-active substance based on a selected portion of the measured light intensity data.
    • 提供了非侵入性测量受试者中光学活性物质浓度的方法和系统。 该系统包括适于向具有光学活性物质的浓度的物体或物体透射光的光源,位于光源和被摄体之间的偏振器,图像捕获装置和处理器。 定位摄像装置以接收从被摄体反射的光并从其产生测量图像。 测量的图像定义测量的光强数据。 处理器被配置为基于所测量的光强度数据的选定部分来计算光学活性物质的浓度。
    • 3. 发明授权
    • Noninvasive measurement system
    • 无创测量系统
    • US07869848B2
    • 2011-01-11
    • US11552100
    • 2006-10-23
    • Walter K. ProniewiczDale E. Winther
    • Walter K. ProniewiczDale E. Winther
    • A61B5/1455
    • A61B5/1455A61B3/10A61B5/0013A61B5/14532A61B5/14555
    • The noninvasive measurement system provides a technique for manipulating wave data. In particular, wave data reflected from a biological entity is received, and the reflected wave data is correlated to a substance in the biological entity. The wave data may comprise light waves, and the biological entity may comprise a human being or blood. Additionally, a substance may comprise, for example, a molecule or ionic substance. The molecule may be, for example, a glucose molecule.Furthermore, the wave data is used to form a matrix of pixels with the received wave data. The matrix of pixels may be modified by techniques of masking, stretching, or removing hot spots.Then, the pixels may be integrated to obtain an integration value that is correlated to a glucose level. The correlation process may use a lookup table, which may be calibrated to a particular biological entity. Moreover, an amplitude and phase angle may be calculated for the reflected wave data and used to identify a glucose level in the biological entity. Additionally, the reflected wave data may be used to determine glaucoma pressure.The glucose level may be displayed on a monitor attached to the computer. The computer may be a portable, self-contained unit that comprises a data processing system and a wave reflection capture system. On the other hand, the computer may be attached to a network of other computers, wherein the reflected wave data is received by the computer and forwarded to another computer in the network for processing.
    • 无创测量系统提供了一种操纵波数据的技术。 特别地,接收到从生物实体反射的波数据,反射波数据与生物实体中的物质相关。 波数据可以包括光波,并且生物实体可以包括人或血液。 另外,物质可以包括例如分子或离子物质。 该分子可以是例如葡萄糖分子。 此外,波数据用于形成具有接收的波数据的像素矩阵。 可以通过掩蔽,拉伸或去除热点的技术来修改像素矩阵。 然后,可以将像素整合以获得与葡萄糖水平相关的积分值。 相关过程可以使用可以针对特定生物实体校准的查找表。 此外,可以针对反射波数据计算振幅和相位角,并用于识别生物实体中的葡萄糖水平。 另外,反射波数据可用于确定青光眼压力。 葡萄糖水平可以显示在连接到计算机的监视器上。 计算机可以是包括数据处理系统和波反射捕获系统的便携式,独立的单元。 另一方面,计算机可以附接到其他计算机的网络,其中反射波数据由计算机接收并转发到网络中的另一计算机进行处理。
    • 4. 发明申请
    • METHOD FOR MEASURING THE CONCENTRATION OF A SUBSTANCE USING ADVANCED IMAGE PROCESSING TECHNIQUES
    • 使用高级图像处理技术测量物质浓度的方法
    • US20090202116A1
    • 2009-08-13
    • US12245523
    • 2008-10-03
    • Dale E. WINTHER
    • Dale E. WINTHER
    • G06K9/00
    • A61B5/14532A61B5/7257
    • A method and system for non-invasively measuring the concentration of an optically-active substance in a subject are provided. The system includes a light source adapted to transmit light towards a subject or object having a concentration of an optically-active substance, a polarizer positioned between the light source and the subject, an image capturing device, and a processor. The image capturing device is positioned to receive light reflected from the subject and create a measured image therefrom. The measured image defines measured light intensity data. The processor is configured to calculate a concentration of the optically-active substance based on a selected portion of the measured light intensity data.
    • 提供了非侵入性测量受试者中光学活性物质浓度的方法和系统。 该系统包括适于向具有光学活性物质的浓度的物体或物体透射光的光源,位于光源和被摄体之间的偏振器,图像捕获装置和处理器。 定位摄像装置以接收从被摄体反射的光并从其产生测量图像。 测量的图像定义测量的光强数据。 处理器被配置为基于所测量的光强度数据的选定部分来计算光学活性物质的浓度。
    • 7. 发明授权
    • Non-invasive measurement system and method for measuring the concentration of an optically-active substance
    • 非侵入性测量系统和用于测量光学活性物质浓度的方法
    • US07167736B2
    • 2007-01-23
    • US10981181
    • 2004-11-04
    • Dale E. Winther
    • Dale E. Winther
    • A61B5/00
    • A61B5/14558
    • A method and system for non-invasively measuring the concentration of an optically-active substance in a subject are provided. The system includes a light source adapted to transmit light towards a subject or object having a concentration of an optically-active substance, a polarizer positioned between the light source and the subject, an image capturing device, and a processor. The image capturing device is positioned to receive light reflected from the subject and create a measured image therefrom. The measured image defines measured light intensity data. The processor is configured to calculate a concentration of the optically-active substance based on a selected portion of the measured light intensity data.
    • 提供了非侵入性测量受试者中光学活性物质浓度的方法和系统。 该系统包括适于向具有光学活性物质的浓度的物体或物体透射光的光源,位于光源和被摄体之间的偏振器,图像捕获装置和处理器。 定位摄像装置以接收从被摄体反射的光并从其产生测量图像。 测量的图像定义测量的光强数据。 处理器被配置为基于所测量的光强度数据的选定部分来计算光学活性物质的浓度。
    • 8. 发明授权
    • Noninvasive measurement system
    • 无创测量系统
    • US06853854B1
    • 2005-02-08
    • US09489593
    • 2000-01-21
    • Walter K. ProniewiczDale E. Winther
    • Walter K. ProniewiczDale E. Winther
    • A61B3/10A61B5/00
    • A61B5/1455A61B3/10A61B5/0013A61B5/14532
    • The noninvasive measurement system provides a technique for manipulating wave data. In particular, wave data reflected from a biological entity is received, and the reflected wave data is correlated to a substance in the biological entity. The wave data may comprise light waves, and the biological entity may comprise a human being or blood. Additionally, a substance may comprise, for example, a molecule or ionic substance. The molecule may be, for example, a glucose molecule.Furthermore, the wave data is used to form a matrix of pixels with the received wave data. The matrix of pixels may be modified by techniques of masking, stretching, or removing hot spots.Then, the pixels may be integrated to obtain an integration value that is correlated to a glucose level. The correlation process may use a lookup table, which may be calibrated to a particular biological entity. Moreover, an amplitude and phase angle may be calculated for the reflected wave data and used to identify a glucose level in the biological entity.The glucose level may be displayed on a monitor attached to the computer. The computer may be a portable, self-contained unit that comprises a data processing system and a wave reflection capture system. On the other hand, the computer may be attached to a network of other computers, wherein the reflected wave data is received by the computer and forwarded to another computer in the network for processing.
    • 无创测量系统提供了一种操纵波数据的技术。 特别地,接收到从生物实体反射的波数据,反射波数据与生物实体中的物质相关。 波数据可以包括光波,并且生物实体可以包括人或血液。 另外,物质可以包括例如分子或离子物质。 该分子可以是例如葡萄糖分子。此外,波数据用于形成具有接收波数据的像素矩阵。 可以通过掩蔽,拉伸或去除热点的技术来修改像素矩阵。然后可以将像素整合以获得与葡萄糖水平相关的积分值。 相关过程可以使用可以针对特定生物实体校准的查找表。 此外,可以针对反射波数据计算振幅和相位角,并用于识别生物实体中的葡萄糖水平。葡萄糖水平可以显示在附接到计算机的监视器上。 计算机可以是包括数据处理系统和波反射捕获系统的便携式,独立的单元。 另一方面,计算机可以附接到其他计算机的网络,其中反射波数据由计算机接收并转发到网络中的另一计算机进行处理。