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    • 6. 发明授权
    • Tool for high temperature roll nip measurements
    • 用于高温辊隙测量的工具
    • US5598639A
    • 1997-02-04
    • US477686
    • 1995-06-07
    • Michael B. Webb
    • Michael B. Webb
    • G01B7/14G01B21/06G01L5/00G03G15/20
    • G01B7/14G01L5/0085G03G15/2064
    • Disclosed is a roll nip tool for making nip width measurements within a high temperature roll nip. The tool includes a first thin section for inserting into the high temperature roll nip. The first thin section includes a first surface that has a first portion of an electrical circuit formed thereon. The first thin section also includes a second thin member that has a second surface and a second portion of the electrical circuit formed thereon. The first thin member and the second thin member are attached together to form a pocket, and are arranged together such that the first and the second portions of the electrical circuit can be brought together into circuit closing contact within the pocket. The first thin section of the tool further includes a mechanism or suitable means such as pressurized air within the pocket for normally keeping the electrical circuit open by controllably separating the first and the second portions of the electrical circuit. The tool then includes a second section connected to the first thin section for indicating the achievement of closing contact between the first and the second portions of the electrical circuit.
    • 公开了一种用于在高温辊压区内进行压区宽度测量的辊压工具。 该工具包括用于插入高温辊压区的第一薄部分。 第一薄部分包括具有形成在其上的电路的第一部分的第一表面。 第一薄部分还包括具有形成在其上的电路的第二表面和第二部分的第二薄部件。 第一薄构件和第二薄构件附接在一起以形成凹穴,并且被布置在一起,使得电路的第一和第二部分可以一起进入袋内的电路闭合接触。 该工具的第一薄部分还包括机构或适当的装置,例如袋内的加压空气,用于通过可控地分离电路的第一和第二部分来正常地保持电路断开。 然后,该工具包括连接到第一薄部分的第二部分,用于指示实现电路的第一和第二部分之间的闭合接触。
    • 8. 发明申请
    • OPTIMIZED METHOD FOR LID BIOSENSOR RESONANCE DETECTION
    • 用于生物传感器谐振检测的优化方法
    • US20090138205A1
    • 2009-05-28
    • US12266060
    • 2008-11-06
    • Jacques GollierGarrett A. PiechMichael B. WebbQi Wu
    • Jacques GollierGarrett A. PiechMichael B. WebbQi Wu
    • G06F19/00G06F15/00
    • G01J3/28G01J3/02G01J3/0218G01J3/1895G01J3/2803G01N21/7743
    • An optical interrogation system is described herein that can interrogate a label-independent-detection (LID) biosensor and monitor a biological event on top of the biosensor without suffering from problematical parasitic reflections and/or problematical pixelation effects. In one embodiment, the optical interrogation system is capable of interrogating a biosensor and using a low pass filter algorithm to digitally remove problematic parasitic reflections contained in the spectrum of an optical resonance which makes it easier to determine whether or not a biological event occurred on the biosensor. In another embodiment, the optical interrogation system is capable of interrogating a biosensor and using an oversampling/smoothing algorithm to reduce oscillations in the estimated location of an optical resonance caused by the problematical pixelation effect which makes it easier to determine whether or not a biological event occurred on the biosensor.
    • 本文描述了一种光询问系统,其可以询问标签无关检测(LID)生物传感器并在生物传感器顶部监测生物事件,而不会遇到有问题的寄生反射和/或有问题的像素化效应。 在一个实施例中,光询问系统能够询问生物传感器并使用低通滤波器算法来数字地去除包含在光学共振的光谱中的有问题的寄生反射,这使得更容易确定生物事件是否发生在 生物传感器 在另一个实施例中,光询问系统能够询问生物传感器并使用过采样/平滑算法来减少由问题像素化效应引起的光学共振的估计位置中的振荡,这使得更容易确定生物事件 发生在生物传感器上。
    • 9. 发明授权
    • Optimized method for LID biosensor resonance detection
    • LID生物传感器共振检测的优化方法
    • US07509239B2
    • 2009-03-24
    • US11716425
    • 2007-03-09
    • Jacques GollierGarrett A. PiechMichael B. WebbQi Wu
    • Jacques GollierGarrett A. PiechMichael B. WebbQi Wu
    • G03F1/26
    • G01J3/28G01J3/02G01J3/0218G01J3/1895G01J3/2803G01N21/7743
    • An optical interrogation system is described herein that can interrogate a label-independent-detection (LID) biosensor and monitor a biological event on top of the biosensor without suffering from problematical parasitic reflections and/or problematical pixelation effects. In one embodiment, the optical interrogation system is capable of interrogating a biosensor and using a low pass filter algorithm to digitally remove problematic parasitic reflections contained in the spectrum of an optical resonance which makes it easier to determine whether or not a biological event occurred on the biosensor. In another embodiment, the optical interrogation system is capable of interrogating a biosensor and using an oversampling/smoothing algorithm to reduce oscillations in the estimated location of an optical resonance caused by the problematical pixelation effect which makes it easier to determine whether or not a biological event occurred on the biosensor.
    • 本文描述了一种光询问系统,其可以询问标签无关检测(LID)生物传感器并在生物传感器顶部监测生物事件,而不会遇到有问题的寄生反射和/或有问题的像素化效应。 在一个实施例中,光询问系统能够询问生物传感器并使用低通滤波器算法来数字地去除包含在光学共振的光谱中的有问题的寄生反射,这使得更容易确定生物事件是否发生在 生物传感器 在另一个实施例中,光询问系统能够询问生物传感器并使用过采样/平滑算法来减少由问题像素化效应引起的光学共振的估计位置中的振荡,这使得更容易确定生物事件 发生在生物传感器上。