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    • 3. 发明授权
    • Misalignment tolerant contactless RF coupling device
    • 不对中的非接触RF耦合器件
    • US08633784B2
    • 2014-01-21
    • US13174178
    • 2011-06-30
    • Conrad IhlaRobert Charles BeckerGlen BackesAlan CornettMatthew S. Marcus
    • Conrad IhlaRobert Charles BeckerGlen BackesAlan CornettMatthew S. Marcus
    • H01P3/08
    • H01P1/047H01P5/028
    • Some embodiments relate to a contactless RF coupling device that includes a first substrate and a second substrate. The RF coupling device may provide a broadband, low loss electrical connection without mechanical contact as would a conventional mechanical connector. The first substrate includes a first ground plane on one side and a first transmission line on an opposing side. The first transmission line includes an enlarged first coupling member at an end of the first transmission line. The second substrate includes a second ground plane on one side and a second transmission line on an opposing side. The second transmission line includes an enlarged second coupling member at an end of the second transmission line. The first ground plane may not extend under the first coupling member and the second ground plane may include an opening that is aligned with the second coupling member.
    • 一些实施例涉及包括第一基板和第二基板的非接触RF耦合装置。 RF耦合器件可以提供宽带,低损耗的电连接,而不会像传统的机械连接器那样机械接触。 第一基板包括一侧的第一接地平面和相对侧上的第一传输线。 第一传输线包括在第一传输线的端部处的扩大的第一耦合部件。 第二基板包括一侧的第二接地平面和相对侧上的第二传输线。 第二传输线包括在第二传输线的一端的扩大的第二耦合部件。 第一接地平面可以不在第一联接构件下方延伸,并且第二接地平面可以包括与第二联接构件对准的开口。
    • 4. 发明申请
    • AUTOMATED LANDING ZONE SITE SURVEYING
    • 自动登陆区域调查
    • US20100204919A1
    • 2010-08-12
    • US12368142
    • 2009-02-09
    • Robert Charles BeckerAlan CornettDavid Todd Spoor
    • Robert Charles BeckerAlan CornettDavid Todd Spoor
    • G01V3/38
    • G01S17/023G01S7/003G01S17/89G08G5/0086
    • An imaging system includes a processor, a detection assembly configured to collect survey data characterizing a respective height and location of physical features of a geographic region, a receiver assembly configured to provide location data characterizing a geolocation of the geographic region, a tilt sensor configured to provide tilt data characterizing an inclination of the detection assembly with respect to gravity, and a magnetic-field sensor configured to provide field data characterizing a magnetic field associated with the geographic region. The processor is configured to perform processing of the survey data and tilt data to yield a first corrected data set, obtain magnetic-deviation data associated with the geographic region, determine an indication of true north, and process the first corrected data set and true-north indication to yield a second corrected data set comprising the first corrected data set oriented to true north.
    • 成像系统包括处理器,检测组件,被配置为收集表征地理区域的物理特征的相应高度和位置的测量数据;被配置为提供表征地理区域的地理位置的位置数据的接收器组件;配置为 提供表征检测组件相对于重力的倾斜的倾斜数据,以及被配置为提供表征与该地理区域相关联的磁场的场数据的磁场传感器。 所述处理器被配置为执行所述勘测数据和倾斜数据的处理以产生第一校正数据集,获得与所述地理区域相关联的磁偏差数据,确定真北的指示,并处理所述第一校正数据集和所述第一校正数据集, 北指示以产生包括朝向真北的第一校正数据集的第二校正数据集。
    • 8. 发明申请
    • MISALIGNMENT TOLERANT CONTACTLESS RF COUPLING DEVICE
    • MISALIGNMENT耐用无连接射频耦合器件
    • US20130002376A1
    • 2013-01-03
    • US13174178
    • 2011-06-30
    • Conrad IhlaRobert Charles BeckerGlen BackesAlan CornettMatthew S. Marcus
    • Conrad IhlaRobert Charles BeckerGlen BackesAlan CornettMatthew S. Marcus
    • H01P5/00
    • H01P1/047H01P5/028
    • Some embodiments relate to a contactless RF coupling device that includes a first substrate and a second substrate. The RF coupling device may provide a broadband, low loss electrical connection without mechanical contact as would a conventional mechanical connector. The first substrate includes a first ground plane on one side and a first transmission line on an opposing side. The first transmission line includes an enlarged first coupling member at an end of the first transmission line. The second substrate includes a second ground plane on one side and a second transmission line on an opposing side. The second transmission line includes an enlarged second coupling member at an end of the second transmission line. The first ground plane may not extend under the first coupling member and the second ground plane may include an opening that is aligned with the second coupling member.
    • 一些实施例涉及包括第一基板和第二基板的非接触RF耦合装置。 RF耦合器件可以提供宽带,低损耗的电连接,而不会像传统的机械连接器那样机械接触。 第一基板包括一侧的第一接地平面和相对侧上的第一传输线。 第一传输线包括在第一传输线的端部处的扩大的第一耦合部件。 第二基板包括一侧的第二接地平面和相对侧上的第二传输线。 第二传输线包括在第二传输线的端部处的扩大的第二耦合构件。 第一接地平面可以不在第一联接构件下方延伸,并且第二接地平面可以包括与第二联接构件对准的开口。
    • 9. 发明授权
    • System and method for displaying video surveillance fields of view limitations
    • 用于显示视频监控视野限制的系统和方法
    • US09536348B2
    • 2017-01-03
    • US12487405
    • 2009-06-18
    • Alan CornettRobert Charles BeckerAndrew H. Johnson
    • Alan CornettRobert Charles BeckerAndrew H. Johnson
    • H04N7/18G06T17/05G06T11/00G08B13/196
    • G06T17/05G06T11/00G08B13/19641
    • A system and method are provided for displaying video surveillance fields of view limitations. The system and method perform video surveillance of a given area and then geo-locate any obstacles within the area, including measuring their overall size and shape. The system and method map the size, location and shape of the objects into a database and then identify where there are video surveillance coverage gaps from each vantage point where video surveillance is being performed on the area. The system and method then determine where there are overlapping locations of blocked video surveillance (i.e., locations that are “invisible” to video surveillance). The system and method create a simulated image of the area from an orientation above the area which indentifies locations within the area that may not be seen by video surveillance from any of the vantage points where video surveillance is being performed.
    • 提供了一种用于显示视频监控视野限制的系统和方法。 该系统和方法对给定区域执行视频监控,然后对该区域内的任何障碍物进行地理定位,包括测量其整体尺寸和形状。 系统和方法将对象的大小,位置和形状映射到数据库中,然后确定在该区域执行视频监控的每个有利位置存在视频监控覆盖差距的位置。 系统和方法然后确定阻塞视频监视的重叠位置(即,视频监视“看不见”的位置)。 该系统和方法从区域上方的方向创建区域的模拟图像,区域中的位置可能不被视频监视所看到的任何有影响的视频监视的任何位置。