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    • 3. 发明授权
    • Picture data compression coding device and method thereof
    • 图像数据压缩编码装置及其方法
    • US6111987A
    • 2000-08-29
    • US947464
    • 1997-10-09
    • Mikio WatanabeKenji ItoKenji Moronaga
    • Mikio WatanabeKenji ItoKenji Moronaga
    • H03M7/30G06T9/00H04N1/41H04N1/415H04N19/102H04N19/115H04N19/126H04N19/132H04N19/134H04N19/136H04N19/14H04N19/146H04N19/149H04N19/172H04N19/176H04N19/186H04N19/189H04N19/194H04N19/196H04N19/423H04N19/60H04N19/625H04N19/85H04N19/91H04N19/93G06K9/46
    • G06T9/007
    • A device for coding picture data by compression, and a method thereof. By preprocessing, the device calculates a picture activity of one frame of picture data. A quantizing table circuit selects a particular quantizing step matching the picture activity and sets it in a quantizing circuit 32. On a first path, one frame of picture data is fed to a discrete cosine transform (DCT) circuit to be thereby subjected to orthogonal transform. The quantizing circuit sequentially quantizes DC components, low frequency components and high frequency components of the resulting output of the DCT circuit in ascending order of frequency block by block according to a quantizing step set therein. The picture data from the quantizing circuit are coded by Huffman coding while a code counter counts the coded data. The quantizing step set in the quantizing circuit is updated on the basis of the amount of coded data and a target amount of codes. On a second path, the same one frame of picture data is again fed to the DCT circuit to undergo orthogonal transform and compression, as on the first path. The coded picture data are sent to a memory card or similar picture data storing means. A bit distributing circuit produces a bit distribution value block by block. When the output count of the code counter associated with one block reaches the bit distribution value, the DCT circuit, quantizing circuit and Huffman coding circuit are disenabled while an EOB (End Of Block) code is added to the end of the block of coded picture data.
    • 用于通过压缩对图像数据进行编码的装置及其方法。 通过预处理,设备计算一帧图像数据的图像活动。 量化表电路选择与图像活动相匹配的特定量化步骤并将其设置在量化电路32中。在第一路径上,将一帧图像数据馈送到离散余弦变换(DCT)电路,从而进行正交变换 。 量化电路根据其中设定的量化步骤,按照频率逐个按顺序按顺序量化DCT电路的所得输出的DC分量,低频分量和高频分量。 来自量化电路的图像数据通过霍夫曼编码进行编码,而代码计数器对编码数据进行计数。 基于编码数据量和目标代码量,更新量化电路中设置的量化步骤。 在第二路径上,如同第一路径那样,将相同的一帧图像数据再次馈送到DCT电路进行正交变换和压缩。 编码图像数据被发送到存储卡或类似的图像数据存储装置。 位分配电路逐块产生位分配值。 当与一个块相关联的代码计数器的输出计数达到位分配值时,DCT电路,量化电路和霍夫曼编码电路被禁用,而将EOB(块结束)码添加到编码图像块的末尾 数据。
    • 5. 发明授权
    • Picture data compression coding device and method thereof
    • 图像数据压缩编码装置及其方法
    • US5732156A
    • 1998-03-24
    • US396894
    • 1995-03-01
    • Mikio WatanabeKenji ItoKenji Moronaga
    • Mikio WatanabeKenji ItoKenji Moronaga
    • H03M7/30G06T9/00H04N1/41H04N1/415H04N19/102H04N19/115H04N19/126H04N19/132H04N19/134H04N19/136H04N19/14H04N19/146H04N19/149H04N19/172H04N19/176H04N19/186H04N19/189H04N19/194H04N19/196H04N19/423H04N19/60H04N19/625H04N19/85H04N19/91H04N19/93G06K9/46
    • G06T9/007
    • A device for coding picture data by compression, and a method thereof are provided. By preprocessing, the device calculates a picture activity of one frame of picture data. A quantizing table circuit selects a particular quantizing step matching the picture activity and sets the picture activity in a quantizing circuit. On a first path, one frame of picture data is fed to a discrete cosine transform (DCT) circuit to be thereby subjected to orthogonal transform. The quantizing circuit sequentially quantizes DC components, low frequency components and high frequency components of the resulting output of the DCT circuit in ascending order of frequency block by block according to a quantizing step set therein. The picture data from the quantizing circuit are coded by Huffman coding while a code counter counts the coded data. The quantizing step set in the quantizing circuit is updated on the basis of the amount of coded data and a target amount of codes. On a second path, the same one frame of picture data is again fed to the DCT circuit to undergo orthogonal transform and compression, as on the first path. The coded picture data are sent to a memory card or similar picture data storing medium. A bit distributing circuit produces a bit distribution value block by block. When the output count of the code counter associated with one block reaches the bit distribution value, the DCT circuit, quantizing circuit and Huffman coding circuit are disenabled while an EOB (End of Block) code is added to the end of the block of coded picture data.
    • 提供了一种通过压缩对图像数据进行编码的装置及其方法。 通过预处理,设备计算一帧图像数据的图像活动。 量化表电路选择与图像活动相匹配的特定量化步骤,并设置量化电路中的图像活动。 在第一路径上,将一帧图像数据馈送到离散余弦变换(DCT)电路,从而进行正交变换。 量化电路根据其中设定的量化步骤,按照频率逐个按顺序按顺序量化DCT电路的所得输出的DC分量,低频分量和高频分量。 来自量化电路的图像数据通过霍夫曼编码进行编码,而代码计数器对编码数据进行计数。 基于编码数据量和目标代码量,更新量化电路中设置的量化步骤。 在第二路径上,如同第一路径那样,将相同的一帧图像数据再次馈送到DCT电路进行正交变换和压缩。 编码图像数据被发送到存储卡或类似的图像数据存储介质。 位分配电路逐块产生位分配值。 当与一个块相关联的代码计数器的输出计数达到位分配值时,DCT电路,量化电路和霍夫曼编码电路被禁用,而将EOB(块结束)码添加到编码图像块的末尾 数据。
    • 7. 发明授权
    • Apparatus for recording/reproducing video data in a memory card on a
cluster basis
    • 用于以集群为基础在存储卡中记录/再现视频数据的装置
    • US5682202A
    • 1997-10-28
    • US200573
    • 1994-02-22
    • Mikio WatanabeKenji Moronaga
    • Mikio WatanabeKenji Moronaga
    • H04N1/21H04N5/77H04N5/907H04N5/926H04N5/781
    • H04N1/2129H04N1/2112H04N1/2158H04N5/907H04N2101/00H04N2201/214H04N5/772H04N5/9264
    • A picture recording apparatus includes a first storage having storing units, or clusters, each of which has a predetermined capacity for accommodating video data, and thereby writing video data in the first storage on a cluster basis. An inputting section receives video data to be stored in the first storage. A second storage stores in a predetermined order address data each designating, from among the clusters of the first storage, a particular unoccupied cluster. A controller searches, before writing video data in the first storage, for unoccupied clusters and writes in the second storage first address data which designate clusters necessary for accommodating the video data. A data amount determining section determines the amount of video data outputted by the inputting section and outputs, when the amount of video data matches a single cluster, a first signal for commanding the writing of the video data to the next cluster and a second signal for inhibiting the outputting operation of the inputting section. An address generating section is responsive to the first signal for reading address data representative of the next storing unit out of the second storage, generates a real address on the basis of the address data, and feeds the real address to the first storage. A selecting section selects either one of the output signals of the address generating section and inputting section and selectively feeds either one of the selected output signals and the address data outputted by the controller to the first storage.
    • 图像记录装置包括具有存储单元或簇的第一存储器,每个存储单元具有用于容纳视频数据的预定容量,从而以集群为基础在第一存储器中写入视频数据。 输入部分接收要存储在第一存储器中的视频数据。 第二存储器以预定顺序地址存储每个从第一存储器的簇中指定特定未占用簇的数据。 在第一存储器中写入视频数据之前,控制器搜索未被占用的簇并且在指定用于容纳视频数据所需的簇的第二存储器第一地址数据中写入。 数据量确定部分确定由输入部分输出的视频数据的量,并且当视频数据量与单个簇匹配时,输出用于命令将视频数据写入下一个簇的第一信号和用于 禁止输入部的输出动作。 地址产生部分响应于第一信号用于从第二存储器读出表示下一个存储单元的地址数据,根据地址数据产生一个实际地址,并将该实际地址提供给第一个存储器。 选择部分选择地址生成部分和输入部分的输出信号中的一个,并且选择性地将所选择的输出信号中的一个和由控制器输出的地址数据馈送到第一存储器。
    • 8. 发明授权
    • Audio/video data reproducing apparatus which generates end of data
transfer signal and which transfers data after communication error
without resetting address data
    • 产生数据传送信号结束并且在通信错误之后传送数据而不重置地址数据的音频/视频数据再现装置
    • US5276841A
    • 1994-01-04
    • US682522
    • 1991-04-09
    • Kenji MoronagaMikio WatanabeKatsuya Makioka
    • Kenji MoronagaMikio WatanabeKatsuya Makioka
    • G06F11/14G06T1/00H04L1/00H04L29/02H04M11/10H04N1/00H04N1/21H04N1/32H04N5/225H04N7/54H04N19/89G06F12/02
    • H04N19/89G06F11/1443H04N1/32614H04N1/32641H04N1/32673H04N7/54H04N1/00204H04N2201/0084H04N2201/0087H04N2201/3264
    • An audio/video data reproducing apparatus reads out data from a first storage, which has its storage area equally divided into clusters and stores audio/video data on a cluster-by-cluster basis, to transfer the data read out to utility equipment over a communication path. A second storage stores address data designating clusters of the first storage. Clusters including data to be read out are searched for, and the address data designating the clusters thus searched for is stored in the second storage in a predetermined order. The address data is then sequentially read out from the second storage to generate a real address addressing a storage location of the storage area, which is in turn provided with the real address to develop the stored data in the predetermined order. In response to an error occurring during the transmission on the communication path, the second storage is interrupted from developing the address data therefrom. In response to an amount of the audio/video data corresponding to the capacity of one cluster having been transferred, the second storage develops address data designating another cluster including following data to be read out to generate a real address accordingly. When the clusters associated with the audio/video data already transferred reach in number the clusters searched for, an end-of-read signal is developed.
    • 音频/视频数据再现装置从第一存储器读出数据,该第一存储器的存储区域被均匀地划分成簇,并且逐个逐个存储音频/视频数据,以将读出的数据传送到公用设备上 通信路径。 第二存储器存储指定第一存储器的集群的地址数据。 搜索包括要读出的数据的集群,并且以预定顺序将指定如此搜索的集群的地址数据存储在第二存储器中。 然后从第二存储器顺序地读出地址数据,以产生寻址存储区域的存储位置的实际地址,该存储区域依次提供真实地址以按预定顺序开发存储的数据。 响应于在通信路径上的传输期间发生的错误,第二存储器从其开发地址数据中断。 响应于与已经传送的一个簇的容量相对应的音频/视频数据的量,第二存储器产生指定另一个簇的地址数据,其中包括要读出的以下数据,从而相应地生成实际地址。 当与已经传送的音频/视频数据相关联的群集达到搜索到的群集数量时,开发读出结束信号。
    • 9. 发明授权
    • Device for regenerating a picture signal by decoding
    • 用于通过解码再现图像信号的装置
    • US5229864A
    • 1993-07-20
    • US682244
    • 1991-04-09
    • Kenji MoronagaMikio WatanabeNihei Kaname
    • Kenji MoronagaMikio WatanabeNihei Kaname
    • G06T9/00H04N7/26H04N7/30
    • H04N19/90H04N19/86
    • A device for decoding digital picture data coded by compression to thereby regenerate original picture data has a decoding section for decoding the digital picture data. A reverse normalizing section reversely normalizes picture data outputted by the decoding section. A reverse orthogonal transforming section executes two-dimensional reverse orthogonal transform with picture data outputted by the reverse normalizing section. A data counting section counts coded data existing in a plurality of blocks constituting the digital picture data block by block. A filter selecting section selects an interblock filter and an edge filter on the basis of the amount of coded data determined by the data counting section block by block. A correcting section corrects a distortion between nearby blocks by using the interblock filter selected, while an edge enhancing section executes edge enhancement by using the edge filter. The filter selecting section selects the intensity of the interblock filter and the intensity of the edge filter on the basis of the amount of coded data determined block by block. The filters for the correction of a distortion may be replaced with predicted values which are determined on the basis of the activities of individual blocks and substituted for pixel data. Random noise matching the activities of individual blocks may be added to pixel data after the correction in order to eliminate the distortion of contours of the blocks.
    • 用于解码通过压缩编码的数字图像数据从而再生原始图像数据的装置具有用于对数字图像数据进行解码的解码部分。 反向归一化部分使由解码部分输出的图像数据反向归一化。 反向正交变换部分执行由反向归一化部分输出的图像数据的二维反向正交变换。 数据计数部分逐块地对构成数字图像数据的多个块中存在的编码数据进行计数。 滤波器选择部分根据由数据计数部分逐块确定的编码数据量来选择一个块间滤波器和一个边缘滤波器。 校正部分通过使用所选择的块间滤波器来校正附近块之间的失真,而边缘增强部分通过使用边缘滤波器来执行边缘增强。 滤波器选择部分基于逐块确定的编码数据量来选择块间滤波器的强度和边缘滤波器的强度。 用于校正失真的滤波器可以由基于各个块的活动确定并代替像素数据的预测值来代替。 可以在校正之后将与单个块的活动匹配的随机噪声添加到像素数据,以消除块的轮廓的失真。