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    • 31. 发明授权
    • Automated videography based communications
    • 基于自动摄像的通信
    • US08237771B2
    • 2012-08-07
    • US12411431
    • 2009-03-26
    • Andrew F. KurtzAndrew C. Blose
    • Andrew F. KurtzAndrew C. Blose
    • H04N7/14
    • H04N7/147G06K9/00711G06K9/3216
    • A method for framing subjects captured on video includes receiving video of a subject and determining a current shot framing of the subject. A magnitude and a direction of movement of the subject is determined, relative to the current framing and a level of motion threshold. The subject movement is analyzed relative to the determined magnitude, direction of subject movement, and the current framing, to determine that the subject is properly framed by the current shot framing or whether modifications of the current shot framing are required to capture the moving subject, or to determine a new shot selection and new shot framing. The camera re-frames the subject if the subject is determined not to be properly framed, in accordance with the determined modifications of the current shot framing, the new shot selection and new shot framing. Video images are provided to a remote viewer.
    • 用于构图在视频上拍摄的被摄体的方法包括接收被摄体的视频并确定被摄体的当前拍摄框架。 相对于当前的成帧和运动阈值的水平来确定被摄体的大小和运动方向。 相对于确定的大小,被摄体移动的方向和当前的成帧来分析被摄体移动,以确定被摄体是否被当前拍摄框架适当地构图,或者是否需要修改当前拍摄框架以捕获移动的被摄体, 或者确定新的拍摄选择和新的拍摄框架。 根据当前拍摄框架,新的拍摄选择和新的拍摄框架的确定的修改,如果被摄体被确定为不被正确地构图,照相机将对主体重新构图。 视频图像提供给远程查看器。
    • 33. 发明授权
    • Projection with curved speckle reduction element surface
    • 具有弯曲斑点还原元件表面的投影
    • US08172403B2
    • 2012-05-08
    • US12469727
    • 2009-05-21
    • Barry D. SilversteinJoseph R. BietryGary E. NothhardRobert MetzgerAndrew F. Kurtz
    • Barry D. SilversteinJoseph R. BietryGary E. NothhardRobert MetzgerAndrew F. Kurtz
    • G03B21/00G03B21/14
    • G02B27/48G02B3/0056G02B5/02G03B21/2033G03B21/208H04N9/3161
    • In a coherent light projection system including an image forming system, a relay system, a speckle reduction element, and a projection subsystem, the relay system can have a first f-number, and the projection subsystem can have a second f-number less than the first f-number. The relay system can have a first working distance, and the projection subsystem can have a second working distance less than the first working distance. The image forming system can project an initial image having a first size, and an intermediate image can have a second size greater than or equal to the first size. The speckle reduction element can have a curved surface through which the intermediate image is transferred. The speckle reduction element can include a lenslet arrangement formed on a surface thereof. The speckle reduction element can be moved in a direction parallel to an optical axis of the speckle reduction element.
    • 在包括图像形成系统,中继系统,散斑减少元件和投影子系统的相干光投射系统中,中继系统可以具有第一f数,并且投影子系统可以具有小于 第一个f号码。 继电器系统可以具有第一工作距离,并且投影子系统可以具有小于第一工作距离的第二工作距离。 图像形成系统可以投影具有第一尺寸的初始图像,并且中间图像可以具有大于或等于第一尺寸的第二尺寸。 斑点减少元件可以具有中间图像被转印通过的弯曲表面。 斑点减少元件可以包括在其表面上形成的小透镜布置。 斑点减少元件可以在平行于散斑减少元件的光轴的方向上移动。
    • 35. 发明授权
    • Image data normalization for a monitoring system
    • 监控系统的图像数据归一化
    • US07972266B2
    • 2011-07-05
    • US11751652
    • 2007-05-22
    • Kevin M. GobeynAndrew F. KurtzDonald E. OlsonThomas E. Madden
    • Kevin M. GobeynAndrew F. KurtzDonald E. OlsonThomas E. Madden
    • A61B5/00G06K9/80H04N5/243
    • A61B5/445A61B3/113A61B5/0088A61B5/411A61B5/442A61B5/444A61B5/4547G06F19/00G06F19/321G06F19/3418G16H50/20
    • A method for providing normalized physiological monitoring data of an individual with a measure of the quality of the normalization, including providing a reference feature based on a physiological attribute of the individual for which an attribute value can be determined; unobtrusively capturing physiological monitoring data for the individual during a series of capture events and determining the capture conditions present during each capture event; detecting the presence of the reference feature in the series of captured physiological monitoring data and determining associated attribute values for each capture event; normalizing the captured physiological monitoring data from each capture event according to differences in the attribute values associated with each event and previously calculated attribute values; and calculating normalization confidence values for the individual at the series of capture events, based on capture conditions, normalization transforms, or semantic data, wherein the confidence values statistically measure the quality of the normalization.
    • 一种用于以标准化质量的量度来提供个体的归一化生理监测数据的方法,包括基于可以确定属性值的个人的生理属性提供参考特征; 在一系列捕获事件期间不引人注目地捕获个体的生理监测数据,并确定每次捕获事件期间存在的捕获条件; 检测所述一系列捕获的生理监测数据中参考特征的存在并确定每个捕获事件的相关属性值; 根据与每个事件相关联的属性值和先前计算的属性值的差异,从每个捕获事件归一化捕获的生理监测数据; 以及基于捕获条件,归一化变换或语义数据计算所述捕获事件序列中的个体的归一化置信度值,其中所述置信度值统计地测量所述归一化的质量。
    • 39. 发明授权
    • Laser projection display system
    • 激光投影显示系统
    • US06577429B1
    • 2003-06-10
    • US10050003
    • 2002-01-15
    • Andrew F. KurtzBrian E. KruschwitzSujatha Ramanujan
    • Andrew F. KurtzBrian E. KruschwitzSujatha Ramanujan
    • G02F101
    • H04N9/3132G02B27/48
    • A display apparatus includes a laser light source for emitting a light beam having a coherence length; a beam expander for expanding the light beam; a spatial light modulator; beam shaping optics for shaping the expanded laser beam to provide uniform illumination of the spatial light modulator, the beam shaping optics including a fly's eye integrator having an array of lenslets; a diffuser located in the light beam between the laser light source and the beam shaping optics; an electrically controllable de-speckling modulator for modifying the temporal and spatial phase of the light beam; and a projection lens for producing an image of the spatial light modulator on a distant screen.
    • 显示装置包括用于发射具有相干长度的光束的激光光源; 用于扩展光束的光束扩展器; 空间光调制器; 光束整形光学器件,用于使扩展的激光束成形以提供空间光调制器的均匀照明,所述光束整形光学器件包括具有透镜阵列的蝇眼积分器; 位于激光光源和光束整形光学器件之间的光束中的扩散器; 用于修改光束的时间和空间相位的电可控去斑调制器; 以及用于在遥控屏幕上产生空间光调制器的图像的投影透镜。