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    • 1. 发明申请
    • METHODS FOR ERROR CONCEALMENT DUE TO ENHANCEMENT LAYER PACKET LOSS IN SCALABLE VIDEO CODING (SVC) DECODING
    • 由于可扩展视频编码(SVC)解码中的增强层分组丢失导致的错误隐藏方法
    • US20110122945A1
    • 2011-05-26
    • US12737497
    • 2009-07-21
    • John Qiang LiZhenyu WuXiuping Lu
    • John Qiang LiZhenyu WuXiuping Lu
    • H04N7/12
    • H04N19/00321H04N19/177H04N19/187H04N19/33H04N19/59H04N19/895
    • Methods for concealing Scalable Video Coding (SVC) decoding errors. Lost pictures in the target layer are replaced with up-sampled pictures from a lower layer, such as the base layer. In multiloop decoding applications, lost pictures in the target layer are replaced with corresponding up-sampled pictures from the lower layer. Subsequent target layer pictures in the same Group of Pictures (GOP) are either replaced with corresponding upsampled pictures from the lower layer, or they are decoded with up-sampled pictures from the lower layer used as reference pictures. For single-loop decoding, the bit stream of each layer is buffered, for each GOP, and inspected for errors. If an error is detected in the target layer, the pictures of the highest level layer without an error are decoded and up-sampled and used as the output pictures for the current GOP.
    • 隐藏可缩放视频编码(SVC)解码错误的方法。 目标层中丢失的图像将被从较低层(例如基础层)的上采样图像所取代。 在多循环解码应用中,目标层中的丢失图像将被来自下层的相应的上采样图像所取代。 相同图像组(GOP)中的后续目标图像图像将被来自较低层的相应的上采样图像替换,或者用来自用作参考图像的较低层的上采样图像进行解码。 对于单循环解码,每个层的比特流对于每个GOP进行缓冲,并检查错误。 如果在目标层中检测到错误,则无错误的最高级别图层的图像被解码并上采样并用作当前GOP的输出图像。
    • 2. 发明授权
    • Methods for error concealment due to enhancement layer packet loss in scalable video coding (SVC) decoding
    • 由于可扩展视频编码(SVC)解码中的增强层丢包引起的错误隐藏方法
    • US08798145B2
    • 2014-08-05
    • US12737497
    • 2009-07-21
    • John Qiang LiZhenyu WuXiuping Lu
    • John Qiang LiZhenyu WuXiuping Lu
    • H04N7/12H04N7/26H04N7/46H04N7/68
    • H04N19/00321H04N19/177H04N19/187H04N19/33H04N19/59H04N19/895
    • Methods for concealing Scalable Video Coding (SVC) decoding errors. Lost pictures in the target layer are replaced with up-sampled pictures from a lower layer, such as the base layer. In multiloop decoding applications, lost pictures in the target layer are replaced with corresponding up-sampled pictures from the lower layer. Subsequent target layer pictures in the same Group of Pictures (GOP) are either replaced with corresponding upsampled pictures from the lower layer, or they are decoded with up-sampled pictures from the lower layer used as reference pictures. For single-loop decoding, the bit stream of each layer is buffered, for each GOP, and inspected for errors. If an error is detected in the target layer, the pictures of the highest level layer without an error are decoded and up-sampled and used as the output pictures for the current GOP.
    • 隐藏可缩放视频编码(SVC)解码错误的方法。 目标层中丢失的图像将被从较低层(例如基础层)的上采样图像所取代。 在多循环解码应用中,目标层中的丢失图像将被来自下层的相应的上采样图像所取代。 相同图像组(GOP)中的后续目标图像图像将被来自较低层的相应的上采样图像替换,或者用来自用作参考图像的较低层的上采样图像进行解码。 对于单循环解码,每个层的比特流对于每个GOP进行缓冲,并检查错误。 如果在目标层中检测到错误,则无错误的最高级别图层的图像被解码并上采样并用作当前GOP的输出图像。
    • 3. 发明申请
    • METHOD AND APPARATUS FOR FAST CHANNEL CHANGE USING A SECONDARY CHANNEL VIDEO STREAM
    • 使用二次通道视频流进行快速通道更改的方法和装置
    • US20110109808A1
    • 2011-05-12
    • US12737416
    • 2009-07-28
    • John Qiang LiXiuping LuZhenyu Wu
    • John Qiang LiXiuping LuZhenyu Wu
    • H04N7/26H04N5/44
    • H04N5/50H04N5/45H04N21/23439H04N21/4316H04N21/4384
    • A method and apparatus for fast channel change when changing the channel from a channel being viewed full screen as a main picture to a channel being viewed in a secondary channel program display window (e.g., a picture-in-picture (PIP) window). In one implementation, during the channel change, a secondary video stream for a secondary channel program is up-sampled and displayed full screen while receiving the corresponding regular video stream for the video program, of which program contents are identical to those of the secondary video stream. The program contents of the up-sampled secondary video stream is then be replaced seamlessly with those of the corresponding regular video stream at the time when an instantaneous decode refresh (IDR) frame of the corresponding regular video stream is received. In another implementation, the last GOP packets of the corresponding regular video stream, corresponding to a secondary video stream being viewed in the secondary channel program display window, are buffered without being decoded. Upon a request for the channel change, the buffered GOP packets are decoded and displayed immediately while the decoder starts receiving the following frames in the corresponding regular video stream.
    • 一种用于在从作为主图像全屏观看的频道改变频道到在辅助频道节目显示窗口(例如,画中画(PIP)窗口)中观看的频道的频道改变时的方法和装置。 在一个实现中,在频道改变期间,用于辅助频道节目的辅助视频流被上采样并全屏显示,同时接收用于视频节目的相应的常规视频流,其中节目内容与次要视频的相同 流。 然后,当接收到相应的常规视频流的瞬时解码刷新(IDR)帧时,上采样次视频流的节目内容将与相应的常规视频流的节目内容无缝替换。 在另一实施方式中,缓冲对应于在辅助信道节目显示窗口中观看的次视频流的相应常规视频流的最后GOP分组,而不被解码。 在请求频道改变时,缓冲的GOP分组被解码并立即显示,同时解码器开始接收相应的常规视频流中的后续帧。
    • 7. 发明申请
    • METHOD AN APPARATUS FOR FAST CHANNEL CHANGE USING A SCALABLE VIDEO CODING (SVC) STREAM
    • 方法使用可扩展视频编码(SVC)流的快速通道更改的方法
    • US20110109810A1
    • 2011-05-12
    • US12737415
    • 2009-07-28
    • John Qiang LiXiuping LuZhenyu Wu
    • John Qiang LiXiuping LuZhenyu Wu
    • H04N7/26H04N5/44H04N5/50
    • H04N21/44016H04N5/4401H04N5/45H04N5/50H04N21/23424H04N21/234327H04N21/4316H04N21/4384H04N21/4621
    • There are provided methods and apparatus for fast channel change when changing the channel from a channel being viewed full screen to a channel being viewed in a secondary display window (e.g., picture-in-picture (PIP) window). In one implementation, the base layer stream of the SVC encoded stream is used as the secondary stream for the secondary display and the corresponding enhancement layer stream is used as the corresponding regular stream. Upon channel change request, the decoded base layer picture of the SVC encoded stream is up-sampled, and the up-sampled base layer picture is displayed full screen while receiving the corresponding SVC enhancement layer stream. Then, the up-sampled base layer picture is replaced by the decoded enhancement layer picture upon confirmation of successful receiving and decoding of an enhancement layer instantaneous decode refresh (IDR) frame. In another implementation, the last GOP of enhancement layer stream corresponding to a base layer stream being viewed in the secondary display window is buffered without decoding, and upon a channel change request to the secondary video display window channel, the buffered packets are decoded and displayed immediately while the decoder continues to receive and decode all frames in the corresponding base and enhancement layer streams.
    • 提供了在从全屏观看的频道到在辅助显示窗口(例如,画中画(PIP)窗口)中正在观看的频道改变频道时提供用于快速频道改变的方法和装置。 在一个实施方式中,使用SVC编码流的基本层流作为辅助显示器的辅助流,并将对应的增强层流用作相应的常规流。 在通道改变请求时,SVC编码流的经解码的基本层图像被上采样,并且上采样的基层图像全屏显示,同时接收相应的SVC增强层流。 然后,在确认增强层瞬时解码刷新(IDR)帧的成功接收和解码之后,上采样的基层图像被解码的增强层图像替换。 在另一实现中,在辅助显示窗口中正在观看的对应于基本层流的增强层流的最后GOP被缓冲而不进行解码,并且在对次要视频显示窗口信道的信道改变请求时,缓冲的分组被解码和显示 立即当解码器继续接收和解码相应的基本和增强层流中的所有帧时。
    • 9. 发明申请
    • METHOD AND APPARATUS FOR RETRANSMISSION DECISION MAKING
    • 回归决策的方法与装置
    • US20120300663A1
    • 2012-11-29
    • US13575646
    • 2010-01-28
    • Xiuping LuIshan Uday MandrekarRamkumar PerumanamHang Liu
    • Xiuping LuIshan Uday MandrekarRamkumar PerumanamHang Liu
    • H04L12/26
    • H04L1/1838H04L1/1671H04L1/1877
    • A method and apparatus are described including parsing an abstraction-layer header and assigning a priority to a packet to be transmitted. A network monitor of a transmitter is connected between a network interface and a retransmission decision maker for deciding which packets to retransmit, for example, based on the assigned priority and collected network statistics or conditions, for example, packet loss rate. A network monitor may also be provided at a receiver for collecting current network statistics such as cumulative number of packets lost and for providing such statistics to a transmitter. The method further includes buffering the data to be transmitted along with the assigned priority, transmitting data retrieved from a buffer via a datagram protocol, receiving a request for retransmission of data, determining if the requested data is in the buffer and retransmitting the requested data via a protocol that provides end-to-end acknowledgement of data and error recovery.
    • 描述了一种方法和装置,包括解析抽象层报头并且为要发送的分组分配优先级。 发送器的网络监视器连接在网络接口和重发决策器之间,用于基于分配的优先级和收集的网络统计或条件(例如,丢包率)来决定哪些分组被重传。 也可以在接收机处提供网络监视器,用于收集当前网络统计信息,例如丢失的分组的累积数目和用于将这种统计信息提供给发射机。 该方法还包括缓冲要发送的数据与分配的优先级,经由数据报协议传送从缓冲器检索的数据,接收数据重发请求,确定所请求的数据是否在缓冲器中,并通过 提供数据端口到终端确认和错误恢复的协议。
    • 10. 发明申请
    • COEXISTENCE OF MULTIPLE WIRELESS NETWORKS
    • 多个无线网络的共同点
    • US20130010597A1
    • 2013-01-10
    • US13635068
    • 2010-04-29
    • Hang LiuMingquan WuJohn LiXiuping LuRamkumar PerumanamSaurabh Mathur
    • Hang LiuMingquan WuJohn LiXiuping LuRamkumar PerumanamSaurabh Mathur
    • H04W28/10
    • H04W28/16H04W16/14H04W84/12
    • Described herein are a method and apparatus including calculating an aggregate peak total traffic demand for all overlapping access points in an interference range, comparing the aggregate peak total traffic demand to a threshold, rejecting a requested new quality of service traffic stream responsive to results of the comparison, calculating a peak total traffic demand for each overlapping access point in the interference range if the requested new quality of service traffic stream is admissible responsive to results of the comparison, comparing the peak total traffic demand for each overlapping access point in the interference range, if the requested new quality of service traffic stream is admissible, to the threshold and one of accepting the requested new quality of service traffic stream and rejecting the requested new quality of service traffic stream responsive to results of the second comparison.
    • 这里描述了一种方法和装置,包括计算干扰范围内所有重叠接入点的总峰值总业务量需求,将总峰值总业务量需求与阈值进行比较,响应于所得到的结果,拒绝所请求的新服务质量业务流 比较,如果响应于比​​较结果允许所请求的新的服务质量服务业务流是可接受的,则计算干扰范围内每个重叠接入点的峰值总业务量需求,比较干扰范围内每个重叠接入点的峰值总业务量需求 如果所请求的新的服务质量业务流被允许,则接收到阈值,并且响应于第二比较的结果,接受所请求的新的服务质量业务流并拒绝所请求的新的服务质量业务流。