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    • 7. 发明申请
    • GRADIENT INDEX (GRIN) BACKPLANE ROUTING
    • 梯级索引(GRIN)BACKPLANE路由
    • US20160299405A1
    • 2016-10-13
    • US15100989
    • 2014-02-25
    • EMPIRE TECHNOLOGY DEVELOPMENT LLC
    • Michael Keoni ManionBenjamin William MillarGeorge Charles Peppou
    • G02F1/295
    • G02F1/295B29D11/00682B82Y20/00G02B6/43G02F1/19G02F2001/291G02F2202/36G02F2202/40
    • Technologies are generally described to employ an optical effect, such as Pockels effect to direct an optical communication signal within a gradient index (GRIN) backplane. An electric field may be created between two or more electrodes located on different surfaces of the GRIN backplane in response to an application of electrical excitation to at least one of the electrodes. The electric field may be configured to change an orientation of nanoparticles in at least a portion of GRIN material comprising the GRIN backplane so as to control a direction of one or more optical pathways within the GRIN backplane. Propagation of an optical communication signal between one or more components mounted on one or more surfaces of the GRIN backplane may be facilitated via the controlled direction of the optical pathways, which may enable control of routing, including switching, of the optical communication signal to a particular optical pathway.
    • 技术通常被描述为采用光学效应,例如Pockels效应来引导梯度折射率(GRIN)背板内的光通信信号。 响应于向至少一个电极施加电激励,可以在位于GRIN背板的不同表面上的两个或更多个电极之间产生电场。 电场可以被配置为改变包括GRIN背板的GRIN材料的至少一部分中的纳米颗粒的取向,以便控制GRIN背板内的一个或多个光学路径的方向。 可以经由光路的受控方向来促进安装在GRIN背板的一个或多个表面上的一个或多个组件之间的光通信信号的传播,这可以使得能够控制路由,包括将光通信信号切换到 特别的光路。
    • 10. 发明申请
    • SINGLE-CHAMBERED SWEAT RATE MONITORING SENSOR
    • 单层烘干速率监测传感器
    • US20170014067A1
    • 2017-01-19
    • US14801702
    • 2015-07-16
    • Empire Technology Development LLC
    • George Charles PeppouMichael Keoni ManionBenjamin William Millar
    • A61B5/00A61B10/00
    • A61B5/4266A61B5/0022A61B5/4875A61B5/681A61B5/6831A61B5/6833A61B5/7475A61B10/0064
    • Technologies are generally described to monitor a sweat rate of an area of a skin. A hydration status of a human or non-human entity is monitored based on the sweat rate. The sweat rate is monitored when the sweat rate monitor is detected as sealed against the surface of the skin. The sweat rate monitor is attached to the surface of the skin with an adhesive, or a tape among other schemes to hold the sweat rate monitor in place during a measurement. The sweat rate monitor includes a container to capture an initial amount of sweat that comes out of the surface of the skin. When, the container is detected as filled with the initial amount of sweat, a pump of the sweat rate monitor is actuated to compress the container. The container is compressed to force a volume of the initial amount of sweat in the container out of an ejection port of the sweat rate monitor.
    • 通常描述技术来监测皮肤区域的汗液率。 基于汗水率监测人类或非人类实体的水合状态。 当检测到汗液速率监测器与皮肤表面密封时,监测汗水率。 汗液速率监测器用粘合剂或胶带等附着在皮肤表面,以便在测量过程中将汗液速率监测器保持在适当位置。 汗水率监测器包括一个容器,用于捕获从皮肤表面出来的初始量的汗液。 当检测到容器充满初始量的汗液时,启动汗液速率监测器的泵以压缩容器。 容器被压缩以将容器中的初始汗液量从汗液速率监测器的排出口压出。