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    • 5. 发明授权
    • Method and apparatus for illuminating a field-of-view and capturing an image
    • 用于照明视场和拍摄图像的方法和装置
    • US07428997B2
    • 2008-09-30
    • US10630062
    • 2003-07-29
    • Christopher A. WiklofClarence T. Tegreene
    • Christopher A. WiklofClarence T. Tegreene
    • G06K7/10
    • G06K7/10851G06K7/10564
    • A variable illuminator, for instance a device for scanning a beam of light, emits a selected amount of power to a plurality of spots across a field of view. The amount of power is determined as inversely proportional to the apparent brightness of each spot. In the case where the spot size is equal to pixel size, the device may operate with a non-imaging detector. In the case where pixel size substantially equals spot size, the output of the variable illuminator may be converged to produce a substantially uniform detector response and the image information is determined as the inverse of a frame buffer used to drive the variable illuminator. The illuminator and detector may be driven synchronously. In the case where an imaging detector is used, the variable illumination may be used to compress the dynamic range of the field of view to substantially within the dynamic range of the imaging detector.
    • 可变照明器,例如用于扫描光束的装置,在整个视野内向多个点发射选定量的功率。 功率量被确定为与每个点的表观亮度成反比。 在斑点尺寸等于像素尺寸的情况下,该装置可以用非成像检测器操作。 在像素尺寸基本上等于光斑尺寸的情况下,可变焦照明器的输出可以被收敛以产生基本均匀的检测器响应,并且图像信息被确定为用于驱动可变照明器的帧缓冲器的倒数。 照明器和检测器可以同步地驱动。 在使用成像检测器的情况下,可变照明可以用于将视场的动态范围压缩到基本上在成像检测器的动态范围内。
    • 9. 发明授权
    • Gas sensor using nanotubes
    • 使用纳米管的气体传感器
    • US08567232B2
    • 2013-10-29
    • US12997859
    • 2010-07-09
    • H. Sprague AckleyChristopher A. Wiklof
    • H. Sprague AckleyChristopher A. Wiklof
    • G01N29/02G01N33/00
    • G01N33/0055
    • Techniques are generally described for detecting a concentration level of at least one gas. Some example devices may include a sensor including conductive plate on a surface of dielectric including a nanotube layer formed thereon. The conductive plate and the nanotube layer form a resonator that resonates at a frequency in response to an interrogation signal. The nanotube layer may be configured to associate with one or more gas molecules. The frequency at which the resonator resonates may shift according to which gas molecules are associated with the nanotube layer to identify a particular gas. An amount of resonance may be exhibited as a resonant response signal. An amplitude of the resonant response signal may be indicative of the concentration level of the detected gas.
    • 通常描述了用于检测至少一种气体的浓度水平的技术。 一些示例性装置可以包括传感器,其包括在包括其上形成的纳米管层的电介质的表面上的导电板。 导电板和纳米管层形成响应于询问信号以频率谐振的谐振器。 纳米管层可以被配置为与一个或多个气体分子缔合。 谐振器谐振的频率可以根据哪个气体分子与纳米管层相关联来识别特定气体。 作为共振响应信号,可以表现出共振量。 谐振响应信号的振幅可以指示检测到的气体的浓度水平。