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    • 1. 发明授权
    • Information processing apparatus and method, recording medium, and program
    • 信息处理装置和方法,记录介质和程序
    • US08311104B2
    • 2012-11-13
    • US11507270
    • 2006-08-21
    • Kyohei KoyabuTakaaki FuchieHiromi Yoshinari
    • Kyohei KoyabuTakaaki FuchieHiromi Yoshinari
    • H04N11/02H04N11/04H04N7/12
    • H04N19/156H04N19/48H04N21/44016
    • An information processing apparatus controlling processing for splicing first and second compressed image data at an editing point includes acquiring means for acquiring the code amounts of the first compressed image data near the start point and the second compressed image data near the end point of a first range around the editing point; analyzing means for analyzing, in accordance with the code amounts, a first locus of virtual buffer occupancies when the virtual buffer occupancy at the start point is minimum and a second locus of virtual buffer occupancies when the virtual buffer occupancy of a picture next to the end point is maximum; and determining means for determining, in accordance with the first locus and the second locus, an upper limit and a lower limit of the virtual buffer occupancy at the start point and the end point, respectively, when the first range is re-encoded.
    • 一种控制在编辑点拼接第一和第二压缩图像数据的处理的信息处理装置包括获取装置,用于获取在起点附近的第一压缩图像数据的代码量和靠近第一范围的终点的第二压缩图像数据 围绕编辑点; 分析装置,用于根据代码量分析当起始点处的虚拟缓冲器占用最小时的虚拟缓冲器占用的第一轨迹,以及在最后一幅图像的虚拟缓冲器占用时虚拟缓冲器占用的第二轨迹 点最大; 以及确定装置,用于当重新编码第一范围时,分别根据第一轨迹和第二轨迹确定起始点和终点处的虚拟缓冲器占用的上限和下限。
    • 4. 发明申请
    • Information processing apparatus and method, recording medium, and program
    • 信息处理装置和方法,记录介质和程序
    • US20070041441A1
    • 2007-02-22
    • US11507270
    • 2006-08-21
    • Kyohei KoyabuTakaaki FuchieHiromi Yoshinari
    • Kyohei KoyabuTakaaki FuchieHiromi Yoshinari
    • H04N7/12
    • H04N19/156H04N19/48H04N21/44016
    • An information processing apparatus controlling processing for splicing first and second compressed image data at an editing point includes acquiring means for acquiring the code amounts of the first compressed image data near the start point and the second compressed image data near the end point of a first range around the editing point; analyzing means for analyzing, in accordance with the code amounts, a first locus of virtual buffer occupancies when the virtual buffer occupancy at the start point is minimum and a second locus of virtual buffer occupancies when the virtual buffer occupancy of a picture next to the end point is maximum; and determining means for determining, in accordance with the first locus and the second locus, an upper limit and a lower limit of the virtual buffer occupancy at the start point and the end point, respectively, when the first range is re-encoded.
    • 一种控制在编辑点拼接第一和第二压缩图像数据的处理的信息处理装置包括获取装置,用于获取在起点附近的第一压缩图像数据的代码量和靠近第一范围的终点的第二压缩图像数据 围绕编辑点; 分析装置,用于根据代码量分析当起始点处的虚拟缓冲器占用最小时的虚拟缓冲器占用的第一轨迹,以及在最后一幅图像的虚拟缓冲器占用时虚拟缓冲器占用的第二轨迹 点最大; 以及确定装置,用于当重新编码第一范围时,分别根据第一轨迹和第二轨迹确定起始点和终点处的虚拟缓冲器占用的上限和下限。
    • 5. 发明授权
    • Image processing apparatus and method
    • 图像处理装置及方法
    • US08238423B2
    • 2012-08-07
    • US12530643
    • 2008-09-12
    • Shojiro ShibataTakeshi ShibataKyohei KoyabuTakaaki Fuchie
    • Shojiro ShibataTakeshi ShibataKyohei KoyabuTakaaki Fuchie
    • H04N7/12
    • H04N19/194H04N19/115H04N19/124H04N19/149H04N19/15H04N19/159H04N19/172H04N19/174H04N19/176H04N19/61
    • To predict a target code amount from a code amount calculated on a single quantizer scale. The present invention stores relationship information on a plurality of pieces of quantized data for prediction having different MB generated code amounts on a fixed quantizer scale (QI) as prediction curves, the relationship information indicating a relationship between a plurality of quantizer scales (Q) representing a plurality of quantizer steps and MB generated code amounts. The present invention quantizes image data on a macroblock-by-macroblock basis on the single fixed quantizer scale (QI) out of the predetermined plurality of quantizer scales (Q), thereby generating temporary quantized data, and calculates the MB generated code amount of each macroblock unit of this temporary quantized data. The present invention then selects a piece of quantized data for prediction from the plurality of prediction curves based on the MB generated code amount of the temporary quantized data and the fixed quantizer scale (QI), and predicts the MB generated code amounts for situations when the image data is quantized on quantizer scales (Q) not selected by a quantization selection section, based on the selected piece of quantized data for prediction.
    • 从单个量化标度计算的代码量来预测目标代码量。 本发明将关于用于预测的多个用于预测的具有不同的MB生成代码量的量化数据的关系信息存储在作为预测曲线的固定量化器标度(QI)上,所述关系信息指示表示多个量化器尺度 多个量化器步骤和MB生成代码量。 本发明基于在预定的多个量化器尺度(Q)中的单个固定量化器尺度(QI)以逐个宏块为基础对图像数据进行量化,从而生成临时量化数据,并且计算每个 该临时量化数据的宏块单元。 然后,本发明基于临时量化数据和固定量化器规模(QI)的MB生成代码量,从多个预测曲线中选择一段量化数据进行预测,并且预测当MB生成代码量为 基于所选择的预测量化数据量,在量化选择部分未选择的量化器尺度(Q)上量化图像数据。
    • 6. 发明申请
    • IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD
    • 图像处理装置和图像处理方法
    • US20110188769A1
    • 2011-08-04
    • US12673186
    • 2009-06-23
    • Takaaki FuchieKyohei KoyabuShojiro ShibataKashu TakahashiYuya Horiuchi
    • Takaaki FuchieKyohei KoyabuShojiro ShibataKashu TakahashiYuya Horiuchi
    • G06K9/38
    • H04N19/436H04N19/103H04N19/126H04N19/13H04N19/14H04N19/149H04N19/15H04N19/176H04N19/18H04N19/192H04N19/197H04N19/50H04N19/61H04N19/89H04N19/91
    • The present invention enables a reduction in circuit scale.In an image coding apparatus (100), as for DCT coefficients as simple coded data obtained by coding an input image (91) by simple processing, the input image (91) is coded by at least quantizing the input image (91) as an input image on the basis of selected quantization parameters (QPl) discretely selected from quantization parameters (QP) as quantization factors, thereby computing generated code sizes of the input image (91) upon coding. The image coding apparatus (100) corrects an error in the generated code sizes of the input image upon coding which occurs in accordance with the simple processing, thereby computing low-precision generated code sizes. The image coding apparatus (100) computes low-precision generated code sizes when the input image (91) is coded on the basis of quantization parameters (QP) other than the selected quantization parameters (QPl), by an interpolation process with respect to the low-precision generated code sizes when the input image (91) is coded on the basis of the selected quantization parameters (QPl).
    • 本发明能够减小电路规模。 在图像编码装置(100)中,对于作为通过简单处理对输入图像(91)进行编码而获得的简单编码数据的DCT系数,输入图像(91)通过至少将输入图像(91)量化为 基于从量化参数(QP)离散地选择的量化参数(QP1)作为量化因子的输入图像,从而计算编码时输入图像(91)的生成代码大小。 图像编码装置(100)根据简单处理对编码后的输出图像的生成码量进行校正,从而计算出低精度生成码量。 当根据所选择的量化参数(QP1)以外的量化参数(QP)对输入图像(91)进行编码时,图像编码装置(100)通过相对于所选择的量化参数 基于选择的量化参数(QP1)对输入图像(91)进行编码时的低精度生成码量。
    • 7. 发明授权
    • Image encoding device and image encoding method
    • 图像编码装置和图像编码方法
    • US08755617B2
    • 2014-06-17
    • US12840626
    • 2010-07-21
    • Kyohei KoyabuTakaaki Fuchie
    • Kyohei KoyabuTakaaki Fuchie
    • G06K9/46G06K9/36G06K9/00
    • H04N19/124H04N19/15H04N19/159H04N19/177H04N19/192
    • An image encoding device includes: a first encoding unit for encoding image data using a fixed-quantizing parameter to calculate a generated code amount; a second encoding unit for encoding the image data using multiple different quantizing parameters for each of the quantizing parameters as the image data of an intra picture to calculate a generated code amount; a code amount control unit for determining a quantizing parameter by predicting a quantizing parameter for realizing a target generated code amount, and a generated code amount when employing this quantizing parameter based on the generated code amount calculated at the first encoding unit, and correcting this predicted generated code amount according to the generated code amount calculated at the second encoding unit so as to realize the target generated code amount; and a third encoding unit for encoding the image data using the quantizing parameter determined at the code amount control unit.
    • 图像编码装置包括:第一编码单元,用于使用固定量化参数对图像数据进行编码,以计算生成的代码量; 第二编码单元,用于使用用于每个量化参数的多个不同量化参数对图像数据进行编码,作为帧内图像的图像数据,以计算生成的代码量; 代码量控制单元,用于通过预测用于实现目标生成代码量的量化参数来确定量化参数,以及当基于在第一编码单元计算出的生成代码量来采用该量化参数时产生的代码量,并且校正该预测值 根据在第二编码单元计算出的生成代码量生成代码量,以实现目标生成代码量; 以及第三编码单元,用于使用在码量控制单元确定的量化参数对图像数据进行编码。
    • 9. 发明授权
    • Image encoding device and image encoding method
    • 图像编码装置和图像编码方法
    • US08861596B2
    • 2014-10-14
    • US12840672
    • 2010-07-21
    • Kyohei KoyabuTakaaki Fuchie
    • Kyohei KoyabuTakaaki Fuchie
    • H04N11/02H04N11/04H04N7/12H04N19/15H04N19/176H04N19/115H04N19/194H04N19/124
    • H04N19/00187H04N19/115H04N19/124H04N19/15H04N19/159H04N19/176H04N19/194
    • An image encoding device includes: a first encoding unit for calculating a generated code amount when encoding image data using a fixed quantizing parameter, and block distinction regarding whether a macro block is a block for performing temporal prediction or block for performing spatial prediction regarding a picture for predicting a temporal direction; a code amount control unit for setting the offset amount of a quantizing parameter so as to have great code amount to be assigned to a picture including many images to be referenced according to a percentage between the block for temporal prediction, and the block for spatial prediction based on the results of the block distinction, and determining a quantizing parameter based on the generated code amount calculated at the first encoding unit; and a second encoding unit for encoding the image data using the offset quantizing parameter for realizing a target generated code amount.
    • 一种图像编码装置包括:第一编码单元,用于当使用固定的量化参数对图像数据进行编码时计算生成的代码量,以及关于宏块是否是用于执行时间预测的块或用于执行关于图像的空间预测的块的块区分 用于预测时间方向; 编码量控制单元,用于将量化参数的偏移量设置为具有根据用于时间预测的块之间的百分比来分配给包括要参考的许多图像的图像的大代码量,以及用于空间预测的块 基于所述块区分的结果,并且基于在所述第一编码单元计算出的所生成的代码量来确定量化参数; 以及第二编码单元,用于使用用于实现目标生成代码量的偏移量化参数对图像数据进行编码。
    • 10. 发明授权
    • Image encoding device and image encoding method
    • 图像编码装置和图像编码方法
    • US08483494B2
    • 2013-07-09
    • US12840739
    • 2010-07-21
    • Kyohei KoyabuTakaaki Fuchie
    • Kyohei KoyabuTakaaki Fuchie
    • G06K9/46G06K9/36
    • H04N19/40H04N19/107H04N19/114H04N19/126H04N19/149H04N19/159H04N19/172H04N19/177H04N19/194H04N19/61
    • An image encoding device includes: a first encoding unit for calculating a generated code amount by encoding image data for each GOP (Group of Picture); a code amount control unit for setting quantization information for realizing a target generated code amount based on the generated code amount; a quantization information distinguishing unit for calculating a DCT (Discrete Cosine Transform) coefficient, and distinguishing quantization information that minimizes the summation for each picture of remainders when performing division of the DCT coefficient, as quantization information used for performing the last encoding; a picture-type setting unit for setting a picture type to the image data for each GOP, and when this set picture type differs from the picture type of the distinguished quantization information, matching the picture types by controlling the settings of the subsequent picture types; and a second encoding unit for encoding the image data based on the set picture type.
    • 图像编码装置包括:第一编码单元,用于通过对每个GOP(图像组)的图像数据进行编码来计算生成的代码量; 代码量控制单元,用于基于生成的代码量设置用于实现目标生成代码量的量化信息; 用于计算DCT(离散余弦变换)系数的量化信息区分单元,以及当执行DCT系数的分割时,将剩余的每个图像的求和最小化的量化信息作为用于执行最后编码的量化信息; 用于将每个GOP的图像数据设置为图像类型的图像类型设置单元,并且当该设置的图像类型与识别的量化信息的图像类型不同时,通过控制后续图像类型的设置来匹配图像类型; 以及第二编码单元,用于基于所设置的图像类型对图像数据进行编码。