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    • 3. 发明授权
    • Picture decoding device and method
    • 图片解码装置及方法
    • US08031778B2
    • 2011-10-04
    • US11795406
    • 2006-01-11
    • Toshihiko Kusakabe
    • Toshihiko Kusakabe
    • H04N11/02
    • H04N19/86H04N19/117H04N19/174H04N19/176H04N19/194H04N19/436H04N19/44H04N19/61H04N19/82
    • A picture decoding device (100) comprises a decoding unit (30), a frame memory (40), a deblocking filter (50), a macro block memory (60), and a control unit (70). The macro block memory (60) stores an unfiltered picture data, for which deblock-filtering is not performed, of the macro blocks adjoining a slice boundary. Decoding and deblock-filtering are performed for the macro blocks of each slice in a manner of pipeline processing, and the decoded picture data for the macro blocks is stored in the frame memory (40). After the pipeline processing for all of the macro blocks is completed, the second deblock-filtering is performed to the slice boundary-adjoining macro blocks, and the pixel values of the slice boundary-adjoining macro blocks already stored in the frame memory (40) are replaced. Thereby, the encoded picture data of arbitrary slice order can be completely decoded.
    • 图像解码装置(100)包括解码单元(30),帧存储器(40),去块滤波器(50),宏块存储器(60)和控制单元(70)。 宏块存储器(60)存储与切片边界相邻的宏块的未滤波图像数据(对其进行去块滤波)。 以流水线处理的方式对每个切片的宏块执行解码和去块滤波,并且用于宏块的解码图像数据被存储在帧存储器(40)中。 在完成所有宏块的流水线处理完成之后,对切片边界相邻的宏块执行第二去块滤波,并且已经存储在帧存储器(40)中的切片边界相邻的宏块的像素值, 被替换 由此,可以完全解码任意切片顺序的编码图像数据。
    • 4. 发明申请
    • IMAGE CODING DEVICE AND IMAGE DECODING DEVICE
    • 图像编码装置和图像解码装置
    • US20100034268A1
    • 2010-02-11
    • US12515647
    • 2008-09-17
    • Toshihiko KusakabeAkihiko Inoue
    • Toshihiko KusakabeAkihiko Inoue
    • H04N7/50
    • G06K9/00261H04N19/11H04N19/136H04N19/17H04N19/593H04N19/61
    • There is a problem of increasing image quality deterioration when selection of an intra prediction mode for a face outline portion is not correct at a low bit-rate. This invention includes: a face detection unit detecting a face image from an input picture; and an intra prediction mode control unit controlling intra prediction mode selection based on a result of the detection of the face detection unit. In the control of intra prediction mode selection, an intra prediction mode is selected based on where a current block is positioned in a region of the face image. Thereby, an appropriate intra prediction mode can be selected for the face outline portion. As a result, image quality deterioration on the face image at a low bit-rate can be prevented.
    • 当以低比特率选择面部轮廓部分的帧内预测模式不正确时,存在增加图像质量恶化的问题。 本发明包括:面部检测单元,其从输入图像检测面部图像; 以及帧内预测模式控制单元,其基于面部检测单元的检测结果来控制帧内预测模式选择。 在帧内预测模式选择的控制中,基于当前块位于面部图像的区域中的位置来选择帧内预测模式。 因此,可以为面部轮廓部分选择适当的帧内预测模式。 结果,可以防止以低比特率在脸部图像上的图像质量劣化。
    • 8. 发明申请
    • Picture Decoding Device and Method
    • 图像解码装置及方法
    • US20080225956A1
    • 2008-09-18
    • US11795406
    • 2006-01-11
    • Toshihiko Kusakabe
    • Toshihiko Kusakabe
    • H04N7/26
    • H04N19/86H04N19/117H04N19/174H04N19/176H04N19/194H04N19/436H04N19/44H04N19/61H04N19/82
    • A picture decoding device (100) comprises a decoding unit (30), a frame memory (40), a deblocking filter (50), a macro block memory (60), and a control unit (70). The macro block memory (60) stores an unfiltered picture data, for which deblock-filtering is not performed, of the macro blocks adjoining a slice boundary. Decoding and deblock-filtering are performed for the macro blocks of each slice in a manner of pipeline processing, and the decoded picture data for the macro blocks is stored in the frame memory (40). After the pipeline processing for all of the macro blocks is completed, the second deblock-filtering is performed to the slice boundary-adjoining macro blocks, and the pixel values of the slice boundary-adjoining macro blocks already stored in the frame memory (40) are replaced. Thereby, the encoded picture data of arbitrary slice order can be completely decoded.
    • 图像解码装置(100)包括解码单元(30),帧存储器(40),去块滤波器(50),宏块存储器(60)和控制单元(70)。 宏块存储器(60)存储与切片边界相邻的宏块的未滤波图像数据(对其进行去块滤波)。 以流水线处理的方式对每个切片的宏块执行解码和去块滤波,并且用于宏块的解码图像数据被存储在帧存储器(40)中。 在完成所有宏块的流水线处理完成之后,对切片边界相邻的宏块执行第二去块滤波,并且已经存储在帧存储器(40)中的切片边界相邻的宏块的像素值, 被替换 由此,可以完全解码任意切片顺序的编码图像数据。