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    • 2. 发明授权
    • System and method for encoding and decoding the residual signal for fine granular scalable video
    • 用于对细粒度可缩放视频进行编码和解码残留信号的系统和方法
    • US06480547B1
    • 2002-11-12
    • US09419672
    • 1999-10-15
    • Yingwei ChenMihaela Van Der SchaarHayder Radha
    • Yingwei ChenMihaela Van Der SchaarHayder Radha
    • H04N712
    • H04N19/34H04N19/13H04N19/29H04N19/61H04N19/63
    • There is disclosed a video encoder and a video decoder. The video encoder comprises base layer circuitry for receiving an input stream of video frames and generating compressed base layer video data for transmission to a streaming video receiver. The base layer video data comprises original transform coefficients (O) associated with the input stream of video frames and reconstructed base layer transform coefficients (B) associated with the original transform coefficients. The video encoder also comprises enhancement layer circuitry for receiving the original transform coefficients (O) and the reconstructed base layer transform coefficients (B) and generating a residual signal (R) proportional to a difference between the original transform coefficients (O) and the reconstructed base layer transform coefficients (B). The enhancement layer circuitry encodes and sends to the streaming video receiver a sign of the residual signal (R) and the bit planes of the residual signal (R). The video decoder comprises base layer circuitry for receiving compressed base layer video data and determining reconstructed base layer transform coefficients (B) associated with a quantization of the base layer video data. The video decoder further comprises enhancement layer circuitry for receiving enhancement layer video data associated with the compressed base layer video data and determining a residual signal (R) and a sign associated with the residual signal (R). The enhancement layer circuitry reconstructs enhancement layer transform coefficients (E) from the residual signal (R) and the plurality of reconstructed base layer transform coefficients (B).
    • 公开了一种视频编码器和视频解码器。 视频编码器包括用于接收视频帧的输入流并生成用于传输到流式视频接收机的压缩基本层视频数据的基本层电路。 基层视频数据包括与视频帧的输入流相关联的原始变换系数(O)和与原始变换系数相关联的重建的基本层变换系数(B)。 视频编码器还包括用于接收原始变换系数(O)和重构的基本层变换系数(B)的增强层电路,并产生与原始变换系数(O)和重建的变换系数(O)之间的差成比例的残差信号 基层变换系数(B)。 增强层电路对流视频接收机编码残留信号(R)的符号和残留信号(R)的位平面。 视频解码器包括用于接收压缩的基本层视频数据和确定与基本层视频数据的量化相关联的重建的基本层变换系数(B)的基本层电路。 视频解码器还包括增强层电路,用于接收与压缩的基本层视频数据相关联的增强层视频数据,并确定残余信号(R)和与残留信号(R)相关联的符号。 增强层电路从剩余信号(R)和多个重建的基本层变换系数(B)重建增强层变换系数(E)。
    • 5. 发明授权
    • Double-loop motion-compensation fine granular scalability
    • 双循环运动补偿精细粒度可扩展性
    • US06940905B2
    • 2005-09-06
    • US09887743
    • 2001-06-21
    • Mihaela Van Der SchaarHayder Radha
    • Mihaela Van Der SchaarHayder Radha
    • G06T9/00H04N7/26H04N7/50H04N7/12
    • H04N19/34H04N19/31H04N19/61
    • A video coding technique having motion compensation within a fine granular scalable coded enhancement layer. In one embodiment, the video coding technique involves a two-loop prediction-based enhancement layer including non-motion-predicted enhancement layer I- and P-frames and motion-predicted enhancement layer B-frames. The motion-predicted enhancement layer B-frames are computed using: 1) motion-prediction from two temporally adjacent differential I- and P- or P- and P-frame residuals, and 2) the differential B-frame residuals obtained by subtracting the decoded base layer B-frame residuals from the original base layer B-frame residuals. In a second embodiment, the enhancement layer further includes motion-predicted enhancement layer P-frames. The motion-predicted enhancement layer P-frames are computed using: 1) motion-prediction from a temporally adjacent differential I- or P-frame residual, and 2) the differential P-frame residual obtained by subtracting the decoded base layer P-frame residual from the original base layer P-frame residual.
    • 一种在细粒度可缩放编码增强层内具有运动补偿的视频编码技术。 在一个实施例中,视频编码技术涉及包括非运动预测增强层I和P帧以及运动预测增强层B帧的基于双循环预测的增强层。 运动预测增强层B帧使用以下方式计算:1)来自两个时间上相邻的差分I和P或P和P帧残差的运动预测,以及2)通过减去 解码的基本层B帧残差从原始基底层B帧残差。 在第二实施例中,增强层还包括运动预测增强层P帧。 使用以下方式计算运动预测增强层P帧:1)来自时间上相邻的差分I或P帧残差的运动预测,以及2)通过减去经解码的基本层P帧获得的差分P帧残差 残留从原始基层P帧残差。