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    • 4. 发明授权
    • Quantitative luminescence imaging system
    • 定量发光成像系统
    • US4948975A
    • 1990-08-14
    • US241992
    • 1988-09-08
    • David N. ErwinJohnathan L. KielCharles R. BatishkoKurt A. Stahl
    • David N. ErwinJohnathan L. KielCharles R. BatishkoKurt A. Stahl
    • G01N21/76G01N22/00
    • G01N21/76
    • The QLIS images and quantifies low-level chemiluminescent reactions in an electromagnetic field. It is capable of real time nonperturbing measurement and simultaneous recording of many biochemical and chemical reactions such as luminescent immunoassays or enzyme assays. The system comprises image transfer optics, a low-light level digitizing camera with image intensifying microchannel plates, an image process or, and a control computer. The image transfer optics may be a fiber image guide with a bend, or a microscope, to take the light outside of the RF field. Output of the camera is transformed into a localized rate of cumulative digitalized data or enhanced video display or hard-copy images. The system may be used as a luminescent microdosimetry device for radiofrequency or microwave radiation, as a thermal dosimeter, or in the dosimetry of ultra-sound (sonoluminescence) or ionizing radiation. It provides a near-real-time system capable of measuring the extremely low light levels from luminescent reactions in electromagnetic fields in the areas of chemiluminescence assays and thermal microdosimetry, and is capable of near-real-time imaging of the sample to allow spatial distribution analysis of the reaction. It can be used to instrument three distinctly different irradiation configurations, comprising (1) RF waveguide irradiation of a small Petri-dish-shaped sample cell, (2) RF irradiation of samples in a microscope for the microscopie imaging and measurement, and (3) RF irradiation of small to human body-sized samples in an anechoic chamber.
    • QLIS图像和量化电磁场中的低水平化学发光反应。 它能够进行实时的非干扰测量和同时记录许多生化和化学反应,如发光免疫测定或酶测定。 该系统包括图像传输光学器件,具有图像增强微通道板的低光级数字化相机,图像处理或控制计算机。 图像传输光学器件可以是具有弯曲或显微镜的光纤图像引导件,以将光照射到RF场外。 相机的输出变换为累积数字化数据或增强型视频显示或硬拷贝图像的本地化速率。 该系统可以用作射频或微波辐射的发光微量测量装置,作为热剂量计,或者用于超声(声发光)或电离辐射的剂量测定。 它提供了一种近实时系统,能够在化学发光测定和热微量测定领域中测量电磁场中的发光反应的极低的光照水平,并且能够近似实时成像样品以允许空间分布 分析反应。 它可用于测量三种明显不同的照射配置,包括(1)小培养皿样品池的RF波导照射,(2)用于显微镜成像和测量的样品的RF照射,(3) )在消声室中对人体大小的样品进行射频照射。
    • 10. 发明授权
    • Method of and system for providing a head up display (HUD)
    • 提供抬头显示(HUD)的方法和系统
    • US08089568B1
    • 2012-01-03
    • US12573021
    • 2009-10-02
    • Robert D. BrownRobert B. WoodKurt A. Stahl
    • Robert D. BrownRobert B. WoodKurt A. Stahl
    • G02F1/1335
    • G02B27/0172G02B5/30G02B2027/015
    • A head up display (HUD) includes an image source, a first lens, a second lens, a focusing mirror, a polarizing beam splitter, a second beam splitter and a combiner. The first lens is disposed between the image source and polarizing beam splitter. The second lens is disposed between the polarizing beam splitter and the second beam splitter. The polarizing beam splitter is disposed between the first lens, the mirror, and the second lens. The optical system for the HUD forms an intermediate image between the second lens and the second beam splitter. The intermediate image is located at the focal point of the curved combiner, and therefore the curved combiner collimates the display light upon reflection. The HUD can be compact and have a wide field of view.
    • 头朝上显示器(HUD)包括图像源,第一透镜,第二透镜,聚焦镜,偏振分束器,第二分束器和组合器。 第一透镜设置在图像源和偏振分束器之间。 第二透镜设置在偏振分束器和第二分束器之间。 偏振分束器设置在第一透镜,反射镜和第二透镜之间。 用于HUD的光学系统在第二透镜和第二分束器之间形成中间图像。 中间图像位于弯曲组合器的焦点处,因此弯曲的组合器在反射时准直显示光。 HUD可以紧凑,并且具有广泛的视野。