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    • 4. 发明申请
    • DECODERS AND METHODS THEREOF FOR MANAGING PICTURES IN VIDEO DECODING PROCESS
    • 用于管理视频解码过程中的图像的解码器及其方法
    • WO2013048311A1
    • 2013-04-04
    • PCT/SE2012/050992
    • 2012-09-20
    • TELEFONAKTIEBOLAGET L M ERICSSON (publ)SAMUELSSON, JonatanSJÖBERG, RickardWENNERSTEN, Per
    • SAMUELSSON, JonatanSJÖBERG, RickardWENNERSTEN, Per
    • H04N7/26
    • H04N19/00533H04N19/31H04N19/44H04N19/46H04N19/50
    • An object with the embodiments of the present invention is to make it well defined from which previously decoded picture to retrieve the values for calculating POC of the current picture regardless of how many temporal layers have been decoded. That is achieved by determining the POC of the current picture, to be used by the decoder, as a sum of a syntax element pic_order_cnt_lsb and a most significant bits of the POC, PicOrderCntMsb, of the current picture, wherein the PicOrderCntMsb of the current picture is derived using at least a prevPicOrderCntMsb and a prevPicOrderCntLsb and the prevPicOrderCntMsb is set equal to the most significant bits of the POC of a previous reference picture in decoding order that has a layer identity equal to zero and prevPicOrderCntLsb is set equal to the value of the least significant bits of the POC of a previous reference picture in decoding order that has a layer identity equal to zero.
    • 具有本发明的实施例的目的是使其从先前解码的图像中很好地定义,以检索用于计算当前图像的POC的值,而不管已经解码了多少时间层。 这是通过将解码器使用的当前画面的POC确定为当前画面的语法元素pic_order_cnt_lsb和POC,PicOrderCntMsb的最高有效位的总和来实现的,其中当前画面的PicOrderCntMsb 使用至少一个prevPicOrderCntMsb和prevPicOrderCntLsb导出,并且将prevPicOrderCntMsb设置为等于先前参考图片的POC的最高有效位,其解码顺序具有等于零的层标识,并且将prevPicOrderCntLsb设置为等于 解码顺序中先前参考图片的POC的最低有效位具有等于零的层标识。
    • 7. 发明申请
    • ENCODING FILTER COEFFICIENTS
    • 编码过滤器系数
    • WO2009087095A1
    • 2009-07-16
    • PCT/EP2009/000065
    • 2009-01-08
    • TELEFONAKTIEBOLAGET LM ERICSSON (publ)ANDERSSON, KennethFRÖJDH, PerPRIDDLE, ClintonSAMUELSSON, JonatanSJÖBERG, Rickard
    • ANDERSSON, KennethFRÖJDH, PerPRIDDLE, ClintonSAMUELSSON, JonatanSJÖBERG, Rickard
    • H04N7/26
    • H04N19/82H04N19/117H04N19/136H04N19/176H04N19/463H04N19/61H04N19/70
    • A method of encoding a plurality of adaptive filter coefficients (104, 107, 112) into a bitstream (110). The method comprises the steps of entropy encoding (109) the adaptive filter coefficients (104, 107, 112) into the bitstream (110), whereby a prediction (202) for an instance (204) of the adaptive filter coefficients is determined (201 ) based on at least one of the remaining adaptive filter coefficients (206), a prediction error (205) is determined (203) based on the difference between the instance (204) of the adaptive filter coefficients and the prediction (202), and wherein the step of entropy encoding (109) the plurality of adaptive filter coefficients (104, 107, 112) comprises entropy encoding (109) the prediction error (205) for the instance (204) of the adaptive filter coefficients and entropy encoding (109) the remaining adaptive filter coefficients (206). Further is provided a corresponding method of decoding a bitstream (110) of encoded adaptive filter coefficients into decoded adaptive filter coefficients (116, 118, 120, 123).
    • 一种将多个自适应滤波器系数(104,107,112)编码为比特流(110)的方法。 该方法包括以下步骤:将自适应滤波器系数(104,107,112)熵编码(109)到比特流(110)中,由此确定自适应滤波器系数的实例(204)的预测(202)(201 )基于所述剩余自适应滤波器系数(206)中的至少一个,基于所述自适应滤波器系数的实例(204)与所述预测(202)之间的差确定(203)预测误差(205),以及 其中所述多个自适应滤波器系数(104,107,112)的熵编码(109)的步骤包括对所述自适应滤波器系数和熵编码(109)的实例(204)进行熵编码(109)所述预测误差(205) )剩余的自适应滤波器系数(206)。 还提供了将经编码的自适应滤波器系数的比特流(110)解码为解码的自适应滤波器系数(116,118,120,123)的相应方法。
    • 8. 发明申请
    • PREDICTION OF PIXELS IN IMAGE CODING
    • 图像编码中像素的预测
    • WO2011056140A1
    • 2011-05-12
    • PCT/SE2010/051212
    • 2010-11-05
    • TELEFONAKTIEBOLAGET LM ERICSSON (publ)SAMUELSSON, JonatanANDERSSON, KennethSJÖBERG, Rickard
    • SAMUELSSON, JonatanANDERSSON, KennethSJÖBERG, Rickard
    • H04N7/34H04N7/50
    • H04N19/50H04N19/105H04N19/11H04N19/176H04N19/182H04N19/513H04N19/553H04N19/593H04N19/61H04N19/80
    • A method and arrangement for prediction of pixel values in an image decoder. In an image decoder, a reference vector which is provided by an image encoder is provided 500. An initiation region of pixels is determined 502, which corresponds to a reference region of pixels at the image encoder. The initiation region is spatially displaced in relation to the prediction region according to the reference vector,and a part of the initiation region overlaps a part of the prediction region. Pixel values are assigned 504 to pixels of the prediction region, whose corresponding pixel values in the initiation region are known. Pixel values of the overlapping region of the initiation region are assigned 506to the corresponding pixels in the prediction region, the pixel values being assigned 504. By determining an overlapping initiation region based on a dynamic reference vector, characteristic variations close to the prediction region are possible to utilise when predicting images, which increases the accuracy of the prediction.
    • 一种用于预测图像解码器中的像素值的方法和装置。 在图像解码器中,提供由图像编码器提供的参考矢量500.确定502的像素的起始区域,其对应于图像编码器处的像素的参考区域。 起始区域根据参考矢量相对于预测区域空间位移,并且起始区域的一部分与预测区域的一部分重叠。 将像素值分配给预测区域的像素,其中起始区域中的相应像素值是已知的。 将起始区域的重叠区域的像素值分配为506到预测区域中的对应像素,像素值被分配504.通过基于动态参考矢量确定重叠的起始区域,接近预测区域的特征变化是可能的 在预测图像时使用,这增加了预测的准确性。