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    • 4. 发明申请
    • MULTIPLE VIDEO CAMERA PROCESSING FOR TELECONFERENCING
    • 用于电视的多视频摄像机处理
    • WO2010059481A1
    • 2010-05-27
    • PCT/US2009/064061
    • 2009-11-11
    • CISCO TECHNOLOGY, INC.FRIEL, Joseph, T.MAUCHLY, J., William
    • FRIEL, Joseph, T.MAUCHLY, J., William
    • H04N7/15
    • H04N7/15
    • A method, an apparatus, and a storage medium with executable code to execute a method including accepting camera views of at least some participants of a teleconference, each view from a corresponding video camera, with the camera views together including at least one view of each participant. The method includes accepting audio from a plurality of microphones, and processing the audio from the plurality of microphones to generate audio data and direction information indicative of the direction of sound received at the microphones. The method further includes generating one or more candidate people views, with each people view being of an area enclosing a head and shoulders view of at least one participant. The method also includes making a selection, according to the direction information, of which at least one of the candidate people views are to be transmitted to one or more remote endpoints.
    • 一种具有可执行代码的方法,装置和存储介质,用于执行包括接收电话会议的至少一些参与者的相机视图的方法,来自相应的摄像机的每个视图,相机视图在一起,包括每个视图的至少一个视图 参与者。 该方法包括接收来自多个麦克风的音频,以及处理来自多个麦克风的音频以产生指示在麦克风处接收的声音方向的音频数据和方向信息。 该方法还包括生成一个或多个候选人视图,每个人的视图是包围至少一个参与者的头部和肩部视图的区域。 该方法还包括根据方向信息进行选择,至少一个候选人视图将被发送到一个或多个远程端点。
    • 5. 发明申请
    • VIRTUAL ROUND-TABLE VIDEOCONFERENCE
    • 虚拟环形视频会议
    • WO2009120814A3
    • 2009-11-26
    • PCT/US2009038310
    • 2009-03-26
    • CISCO TECHOLOGY INCMACDONALD ALAN JMAUCHLY J WILLIAMSOWA DAVID WFRIEL JOSEPH T
    • MACDONALD ALAN JMAUCHLY J WILLIAMSOWA DAVID WFRIEL JOSEPH T
    • H04N7/15H04N7/14H04N7/18H04S5/00
    • H04N7/15H04N7/142H04N7/181
    • A system and method for creating a virtual round table videoconference is described. An embodiment of the system comprises a plurality of displays arranged in an configuration with a table to create a virtual round table. Cameras are arranged around the plurality of displays such that when a participant looks at a display with a image of a remote participant, the camera associated with the display captures an image of the participant's gaze, making eye contact with the camera. The image is displayed at the remote participant's endpoint creating the effect of eye contact between the participants. Images of participants are scaled such that those displayed at the left and right sides appear visually closer than those displayed in the center. In another embodiment, audio speakers are arranged to provide directional sound that the video source for a display and the audio source for the associated speaker are from the same endpoint.
    • 描述了用于创建虚拟圆桌视频会议的系统和方法。 系统的一个实施例包括以具有表格的配置布置的多个显示器,以创建虚拟圆桌。 摄像机被布置在多个显示器周围,使得当参与者用远程参与者的图像查看显示器时,与显示器相关联的相机捕获参与者的注视的图像,与相机眼睛接触。 图像显示在远程参与者的端点处,从而创建参与者之间的眼神接触的效果。 参与者的图像被缩放,使得在左侧和右侧显示的那些显示在视觉上比在中心显示的那些更接近。 在另一个实施例中,音频扬声器被布置成提供用于显示器的视频源和相关联的扬声器的音频源来自相同端点的定向声音。
    • 6. 发明申请
    • HYBRID NON-INVASIVE ULTRASONIC IMAGING SYSTEM
    • 混合非侵入式超声成像系统
    • WO1985003354A1
    • 1985-08-01
    • PCT/US1985000116
    • 1985-01-23
    • LUTHRA, Ajay, K.KASSAM, SaleemMAUCHLY, J., William
    • G01N24/04
    • G01S15/8927G01S7/52046
    • Certain ones of a total array of ultrasonic transducers (11a-11n) constitute a small aperture and are so energized as to project acoustic energy onto predetermined parts of a scene (10). Reflections of the transmitted signals are received by certain ones of the array, are converted to electrical signals and are appropriately delayed to enable additive combination of the amplitude of the received signals emanating from the same points in the scene (10) ("targets"). The phase (or time delay) as well as the amplitude information of the reflective signals are stored. Next, the same transmitting elements ("subarray") project acoustic energy upon the remaining parts of the scene (10) in sequence and the reflected signals are similarly processed and stored. This continues until all the parts of the predetermined scene have been interrogated by insonification from that subarray and the reflected signals have been similarly processed. Then, at least one or more set of transducers of the total array, (11a-11n) which also constitute a small aperture, are caused to scan the same parts of the image in the same sequence thereby producing the same types of reflected signals which are processed similarly, and whose amplitude and phase information is similarly stored. The plurality of the stored signals from each subarray, which may be termed "complex image" signals, are then vectorially added and further processed to derive a video signal which is used to produce a final display image.