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    • 3. 发明授权
    • Deep frame analysis of multiple video streams in a pipeline architecture
    • 在流水线架构中的多个视频流的深度帧分析
    • US07672370B1
    • 2010-03-02
    • US10965682
    • 2004-10-13
    • Stephen G. RussellJ. Andrew FreemanRobert P. ValloneChristian PappasStephen D. FleischerGordon T. Haupt
    • Stephen G. RussellJ. Andrew FreemanRobert P. ValloneChristian PappasStephen D. FleischerGordon T. Haupt
    • H04B1/66
    • G06K9/00973G06K9/00711G08B13/19671
    • A pipeline architecture for analyzing multiple streams of video is embodied, in part, in a layer of application program interfaces (APIs) to each stage of processing. Buffer queuing is used between some stages, which helps moderate the load on the CPU(s). Through the layer of APIs, innumerable video analysis applications can access and analyze video data flowing through the pipeline, and can annotate portions of the video data (e.g., frames and groups of frames), based on the analyses performed, with information that describes the frame or group. These annotated frames and groups flow through the pipeline to subsequent stages of processing, at which increasingly complex analyses can be performed. At each stage, portions of the video data that are of little or no interest are removed from the video data. Ultimately, “events” are constructed and stored in a database, from which cross-event and historical analyses may be performed and associations with, and among, events may be made.
    • 用于分析多个视频流的流水线架构部分地体现在每个处理阶段的应用程序接口(API)层中。 在一些阶段之间使用缓冲区排队,这有助于缓和CPU上的负载。 通过API层,无数的视频分析应用程序可以访问和分析流经流水线的视频数据,并且可以基于所执行的分析来注释视频数据的一部分(例如,帧和帧组),其中描述 框架或组。 这些注释的帧和组流经管线到处理的后续阶段,在该阶段可以执行越来越复杂的分析。 在每个阶段,从视频数据中删除少量或不感兴趣的视频数据的部分。 最终,“事件”被构建并存储在数据库中,可以从该数据库中进行交叉事件和历史分析,并且可以进行与事件的关联以及事件之间的关联。
    • 4. 发明授权
    • Correlation processing among multiple analyzers of video streams at stages of a pipeline architecture
    • 在管道架构的阶段,视频流的多个分析器之间的相关处理
    • US07664183B2
    • 2010-02-16
    • US10965675
    • 2004-10-13
    • J. Andrew FreemanRobert P. ValloneStephen G. RussellStephen D. FleischerGordon T. Haupt
    • J. Andrew FreemanRobert P. ValloneStephen G. RussellStephen D. FleischerGordon T. Haupt
    • H04B1/66
    • G06K9/00973
    • A pipeline architecture for analyzing multiple streams of video is embodied, in part, in a layer of application program interfaces (APIs) to each stage of processing. Buffer queuing is used between some stages, which helps moderate the load on the CPU(s). Through the layer of APIs, innumerable video analysis applications can access and analyze video data flowing through the pipeline, and can annotate portions of the video data (e.g., frames and groups of frames), based on the analysis performed, with information that describes the frame or group. These annotated frames and groups flow through the pipeline to subsequent stages of processing, at which increasingly complex analysis can be performed. At each stage, portions of the video data that are of little or no interest are removed from the video data. Ultimately, “events” are constructed and stored in a database, from which cross-event and historical analysis may be performed and associations with, and among, events may be made.
    • 用于分析多个视频流的流水线架构部分地体现在每个处理阶段的应用程序接口(API)层中。 在一些阶段之间使用缓冲区排队,这有助于缓和CPU上的负载。 通过API层,无数的视频分析应用程序可以访问和分析流经流水线的视频数据,并且可以基于所执行的分析来注释视频数据的一部分(例如,帧和帧组),其中描述了 框架或组。 这些注释的帧和组通过管线流向后续的处理阶段,在此处可以进行越来越复杂的分析。 在每个阶段,从视频数据中删除少量或不感兴趣的视频数据的部分。 最终,“事件”被构造并存储在数据库中,可以从其中执行交叉事件和历史分析,并且可以进行与事件的关联以及事件之间的关联。
    • 10. 发明授权
    • Method and apparatus for resource management in a wireless data communication system
    • 无线数据通信系统中资源管理的方法和装置
    • US07406315B2
    • 2008-07-29
    • US09813386
    • 2001-03-20
    • Christopher Richard UhlikMitchell D. TrottDouglas C. DahlbyStephen D. Fleischer
    • Christopher Richard UhlikMitchell D. TrottDouglas C. DahlbyStephen D. Fleischer
    • H04Q7/20
    • H04W76/25
    • A method and apparatus for delaying or hastening the “lifespan” of a session in response to detecting (or causing) a session renewal. A “session,” refers to a particular user terminal's right of access to one or more communication channels to exchange data with the base station (and other devices/networks coupled thereto). A session renewal refers to an event or condition that delays the lapse/expiration of the session lifespan (i.e., extends the lifespan) or conversely, an event or condition that causes hastens the lapse of the session lifespan (i.e., causes an earlier lapse of the session). In one embodiment, a session represents the period of time in which a user terminal is registered with a base station and can thus access or attempt to access one or more wireless communication channels to exchange data with the base station. Therefore, a session “lifespan” represents a length of time subsequent to which, upon lapse of the lifespan, the session terminates and a remote user terminal must re-register with a base station to establish a session and to gain access to one or more wireless communication channels in which data may be exchanged between the user terminal and the base station.
    • 响应于检测(或导致)会话更新而延迟或加速会话的“寿命”的方法和装置。 “会话”是指特定用户终端访问一个或多个通信信道以与基站(以及与其耦合的其他设备/网络)交换数据的权利。 会议更新是指延迟会话生命周期的延迟/到期(即延长寿命)的事件或条件,或相反地,导致加速会话生命周期的延迟的事件或条件(即,导致更早的过去 会议)。 在一个实施例中,会话表示用户终端向基站注册的时间段,并且因此可以访问或尝试访问一个或多个无线通信信道以与基站交换数据。 因此,会话“寿命”表示随后的时间长度,随后的寿命延长,会话终止,并且远程用户终端必须向基站重新注册以建立会话并获得访问一个或多个 可以在用户终端和基站之间交换数据的无线通信信道。