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    • 4. 发明授权
    • Moving picture coding method and moving picture decoding method
    • 运动图像编码方法和运动图像解码方法
    • US08396132B2
    • 2013-03-12
    • US12724809
    • 2010-03-16
    • Kiyofumi AbeShinya KadonoMakoto HagaiSatoshi Kondo
    • Kiyofumi AbeShinya KadonoMakoto HagaiSatoshi Kondo
    • H04N11/02
    • H04N19/00024H04N19/105H04N19/114H04N19/115H04N19/14H04N19/149H04N19/156H04N19/162H04N19/164H04N19/177H04N19/51H04N19/573H04N19/58H04N19/61
    • A moving picture coding apparatus (10a) according to the present invention includes a level analyzer (100a) that decides the maximum number of intra frame pixels which can be coded (Nfpx) and the maximum number of storage pixels which can be stored in a picture memory of a decoding apparatus (Nspx) on the basis of a level identifier (Lst) indicating a coding level that is designated by the user, thereby judging whether coding of an input image is possible or not and calculating the maximum number of reference pictures (Nrpn) as the number of reference candidate pictures which can be referred to at inter picture prediction coding, on the basis of the maximum number of intra frame pixels (Nfpx) and the input image size (the number of vertical pixels (Nhpx) and the number of horizontal pixels (Nwpx)). A decoding apparatus to which a bit stream from the moving picture coding apparatus (10a) is supplied can always decode the bit stream satisfactorily, and perform inter picture prediction decoding corresponding to the inter picture prediction coding on the coding end. Consequently, memory areas of a coding apparatus and a decoding apparatus that are adapted to a coding method in which there is no restraint on the capacity of the memory area can be designed.
    • 根据本发明的运动图像编码装置(10a)包括:电平分析器(100a),其决定可编码的帧内像素的最大数目(Nfpx)和可以存储在图像中的最大存储像素数 基于指示用户指定的编码电平的电平识别符(Lst),解码装置(Nspx)的存储器,从而判断输入图像的编码是否可行,并且计算参考图像的最大数量( Nrpn)作为帧间预测编码时可参照的参考候选图像的数量,基于帧内像素的最大数目(Nfpx)和输入图像大小(垂直像素数(Nhpx))和 水平像素数(Nwpx))。 提供来自运动图像编码装置(10a)的比特流的解码装置可以令人满意地解码比特流,并且对编码结束中的帧间预测编码执行帧间预测解码。 因此,可以设计适合于对存储区域的容量没有约束的编码方法的编码装置和解码装置的存储区域。
    • 7. 发明授权
    • Motion vector coding and decoding methods
    • 运动矢量编码和解码方法
    • US08160147B2
    • 2012-04-17
    • US11980661
    • 2007-10-31
    • Satoshi KondoShinya KadonoMakoto HagaiKiyofumi Abe
    • Satoshi KondoShinya KadonoMakoto HagaiKiyofumi Abe
    • H04N7/12H04N11/02H04N11/04H04B1/66
    • H04N19/61H04N19/176H04N19/51H04N19/513H04N19/517H04N19/52H04N19/573
    • A motion vector coding method and apparatus that improves efficiency of coding motion vectors when a current block is coded using a plurality of motion vectors. The apparatus includes a motion vector coding unit that codes a motion vector inputted from a motion vector detecting unit. A motion vector for each current block is coded based on a difference between the motion vector and a predicted vector obtained from motion vectors for previously coded neighboring blocks. The predicted vector is generated by one of the following processes: (A) the motion vectors which refer to the same picture are selected from among the motion vectors for the neighboring blocks so as to generate the predicted vector; (B) the motion vectors for the respective neighboring blocks are ordered in the predetermined order, and the motion vectors of the same order rank are selected from the ordered motion vectors so as to generate the predicted vector; and (C) the predicted vector for the second motion vector of the current block shall be the first motion vector, and if the second motion vector and the first motion vector refer to different pictures, the first motion vector is scaled according to the temporal distance between the pictures so as to generate the predicted vector.
    • 一种使用多个运动矢量对当前块进行编码时提高编码运动矢量效率的运动矢量编码方法和装置。 该装置包括对从运动矢量检测单元输入的运动矢量进行编码的运动矢量编码单元。 基于运动矢量与从先前编码的相邻块的运动矢量获得的预测矢量之间的差来对每个当前块的运动矢量进行编码。 通过以下处理之一生成预测矢量:(A)从相邻块的运动矢量中选择引用相同图像的运动矢量,以生成预测矢量; (B)各个相邻块的运动矢量以预定顺序排列,从有序运动矢量中选择相同次序秩的运动矢量,以产生预测矢量; 和(C)当前块的第二运动矢量的预测矢量应为第一运动矢量,如果第二运动矢量和第一运动矢量指的是不同的图像,则第一运动矢量根据时间距离 在图像之间产生预测矢量。
    • 10. 发明授权
    • Variable length coding method and variable length decoding method
    • 可变长度编码方法和可变长度解码方法
    • US07541948B2
    • 2009-06-02
    • US11495600
    • 2006-07-31
    • Shinya KadonoSatoshi KondoMakoto HagaiKiyofumi Abe
    • Shinya KadonoSatoshi KondoMakoto HagaiKiyofumi Abe
    • H03M7/40
    • G06T9/005G11B20/1426H03M5/145H03M7/40H03M7/46H04N19/13H04N19/134H04N19/136H04N19/162H04N19/176H04N19/18H04N19/60H04N19/61H04N19/69H04N19/89H04N19/93
    • An image coding apparatus provides a run-length encoding unit RLE1 that subjects quantized coefficients which are obtained by quantizing frequency components of an image signal to a variable length coding process by using a run value Run that indicates the number of successive zero coefficients and a level value Lev that indicates a value of a non-zero coefficient following the zero coefficients. The run-length encoding unit RLE1 includes a reordering unit Lreodr for reordering level values Lev; a variable length coder LVLC for coding reordered level values ROLev by using a code table that is selected according to the value of a quantization parameter QP; a reordering unit Rreodr for reordering run values Run from high frequency component of the quantized coefficients to low frequency component; and a variable length coder RVLC for coding reordered run values RORun by using a code table that is selected according to the number of already-processed run values.
    • 图像编码装置提供游程长度编码单元RLE1,该游程长度编码单元RLE1对通过使用指示连续零系数的数量的运行值Run和可变长度编码处理的等级来计算通过将图像信号的频率分量量化为可变长度编码处理而获得的量化系数 值Lev,其表示零系数之后的非零系数的值。 游程长度编码单元RLE1包括用于重新排列水平值Lev的重排序单元Lreodr; 可变长度编码器LVLC,用于通过使用根据量化参数QP的值选择的码表来对重新排序的电平值ROLev进行编码; 用于重新排序运行值的重新排序单元Rreodr从量化系数的高频分量运行到低频分量; 以及可变长度编码器RVLC,用于通过使用根据已经处理的运行值的数量选择的代码表来对重排序的运行值RORun进行编码。