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    • 5. 发明授权
    • Optical tomography for microscopy, cell cytometry, microplate array instrumentation, crystallography, and other applications
    • 光学断层扫描显微镜,细胞计数仪,微孔板阵列仪,晶体学等应用
    • US09594239B1
    • 2017-03-14
    • US13963917
    • 2013-08-09
    • Lester F. Ludwig
    • Lester F. LudwigKaren HaoFrank HuAlice HuangPooncharas Tipgunlakant
    • H04N7/18G02B21/06
    • G01N21/05G01N15/1475G01N2021/058G02B21/06G02B21/367
    • An electronic imaging flow-microscope for remote environmental sensing, bioreactor process monitoring, and optical microscopic tomography applications is described. A fluid conduit has a port on each end of a thin flat transparent fluid transport region. A planar illumination surface contacts one flat side of the transparent fluid transport region and a planar image sensing surface contacts the other flat side. Light from the illumination surface travels through the transparent fluid transport region to the planar image sensing surface, producing a light field affected by the fluid and objects present. The planar image sensing surface creates electrical image signals responsive to the light field. The planar illumination surface can be light emitting elements such as LEDs, OLEDs, or OLET. whose illumination can be sequenced in an image formation process. The flow microscope can further comprise flow-restricting valves, pumps, energy harvesting arrangements, and power management.
    • 描述了用于远程环境感测,生物反应器过程监测和光学显微镜层析成像应用的电子成像流动显微镜。 流体导管在薄平坦的透明流体输送区域的每一端具有一个端口。 平面照明面接触透明流体输送区域的一个平坦侧面,平面摄像面与另一平坦面接触。 来自照明表面的光穿过透明流体输送区域到达平面图像感测表面,产生受流体和存在的物体影响的光场。 平面图像感测表面产生响应于光场的电图像信号。 平面照明表面可以是诸如LED,OLED或OLET的发光元件。 其照明可以在图像形成过程中被排序。 流动显微镜还可以包括流量限制阀,泵,能量收集装置和电力管理。
    • 6. 发明授权
    • General user interface gesture lexicon and grammar frameworks for multi-touch, high dimensional touch pad (HDTP), free-space camera, and other user interfaces
    • 一般用户界面手势词汇和语法框架,用于多点触摸,高维度触摸板(HDTP),自由空间相机和其他用户界面
    • US09442652B2
    • 2016-09-13
    • US13414705
    • 2012-03-07
    • Lester F. Ludwig
    • Lester F. Ludwig
    • G06F3/033G06F3/0488
    • G06F3/017G06F3/04883G06F17/2705G06F17/2755
    • A method for a multi-touch gesture-based user interface wherein a plurality of gestemes are defined as functions of abstract space and time and further being primitive gesture segments that can be concatenated over time and space to construct gestures. Various distinct subset of the gestemes can be concatenated in space and time to construct a distinct gestures. Real-time multi-touch gesture-based information provided by user interface is processed to at least a recognized sequence of specific gestemes and that the sequence of gestemes that the user's execution a gesture has been completed. The specific gesture rendered by the user is recognized according to the sequence of gestemes. Many additional features are then provided from this foundation, including gesture grammars, structured-meaning gesture-lexicon, context, and the use of gesture prosody.
    • 一种用于基于多触摸手势的用户界面的方法,其中多个准单位被定义为抽象空间和时间的函数,并且进一步是可以随时间和空间连接以构建手势的原始手势段。 可以在空间和时间中连接各种不同的gestem子集,以构建不同的手势。 由用户界面提供的基于实时多点触摸手势的信息被处理为至少一个识别出的特定的行为的序列,并且用户执行手势已经完成的行为的顺序。 由用户呈现的特定手势根据gestemes的顺序被识别。 然后从这个基础提供许多其他功能,包括手势语法,结构化意义的手势词典,上下文以及使用手势韵律。