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    • 2. 发明授权
    • Method for the data transfer between at least two clock domains
    • 用于至少两个时钟域之间数据传输的方法
    • US08176353B2
    • 2012-05-08
    • US12355234
    • 2009-01-16
    • Thorsten Lutscher
    • Thorsten Lutscher
    • G06F1/04
    • G06F13/4059
    • The invention describes a method for transferring data between a first clock domain having a first clock rate (CLK1) and at least one additional clock domain having a second clock rate (CLK2), comprising the following for the transfer of data from the first to the second clock domain (CLK1, CLK2): reading in of a data item in accordance with the first clock rate (CLK1) into a first memory (11), and locking of the first memory after saving the data item, signalizing a transfer start after saving the data item in the first memory (11) by means of a transfer start signal (TS), reading out the data item from the first memory, and reading in the data item into a second memory, each according to the second clock signal (CLK2), processing the transfer start signal (TS) according to the second clock signal (CLK2) for generating a transfer end signal (TD), processing the transfer end signal (TD) according to the first clock signal (CLK1) for generating a release signal (TD′) and releasing the first memory as a function of the release signal (TD′).
    • 本发明描述了一种用于在具有第一时钟速率(CLK1)的第一时钟域和具有第二时钟速率(CLK2)的至少一个附加时钟域之间传送数据的方法,包括以下步骤:将数据从第一时钟域传送到 第二时钟域(CLK1,CLK2):根据第一时钟速率(CLK1)将数据项目读入第一存储器(11),并且在保存数据项之后锁定第一存储器,在第一存储器 通过传输开始信号(TS)将数据项保存在第一存储器(11)中,从第一存储器读出数据项,并将数据项读入第二存储器,每个根据第二时钟信号 (CLK2),根据用于生成传送结束信号(TD)的第二时钟信号(CLK2)处理传送开始信号(TS),根据用于生成的第一时钟信号(CLK1)处理传送结束信号(TD) 释放信号(TD')并释放 作为释放信号(TD')的函数的第一存储器。
    • 3. 发明授权
    • Video processing device with low memory bandwidth requirements
    • 具有低内存带宽要求的视频处理设备
    • US08155459B2
    • 2012-04-10
    • US10556616
    • 2004-05-06
    • Stéphane MutzHugues De PerthuisEric Desmicht
    • Stéphane MutzHugues De PerthuisEric Desmicht
    • G06K9/36H04N7/12
    • H04N19/433H04N19/44H04N19/51H04N19/61
    • The present invention relates to a video processing device for processing data corresponding to a sequence of pictures according to a predictive block-based encoding technique. Said device comprises a processing unit (20) including a reconstruction circuit (16) for reconstructing pictures from decoded data and an external memory (1) for storing reference pictures delivered by the reconstruction circuit. The processing unit further comprises a memory controller (11) for controlling data exchange between the processing unit and the external memory, a cache memory (17) for temporarily storing data corresponding to a prediction area, said data being read out from the external memory via the memory controller, and a motion compensation circuit (14) for delivering motion compensated data to the reconstruction circuit on the basis of the prediction area read out from the cache memory.
    • 本发明涉及一种视频处理装置,用于根据预测的基于块的编码技术处理对应于图像序列的数据。 所述装置包括处理单元(20),该处理单元(20)包括用于从解码数据重建图像的重构电路(16)和用于存储由重建电路传送的参考图像的外部存储器(1)。 处理单元还包括用于控制处理单元和外部存储器之间的数据交换的存储器控​​制器(11),用于临时存储对应于预测区域的数据的高速缓冲存储器(17),所述数据从外部存储器经由 存储器控制器和用于基于从高速缓冲存储器读出的预测区域将运动补偿数据传送到重建电路的运动补偿电路(14)。
    • 4. 发明授权
    • Enhancing video images depending on prior image enhancements
    • 根据先前的图像增强功能增强视频图像
    • US08135073B2
    • 2012-03-13
    • US10537889
    • 2003-12-12
    • Richard Chi-Te Shen
    • Richard Chi-Te Shen
    • H04N7/18
    • G06T5/008G06T2207/10016H04N19/117H04N19/136H04N19/159H04N19/172H04N19/61
    • A video stream containing encoded frame-based video information includes a first frame and a second frame. The encoding of the second frame depends on the encoding of the first frame. The encoding includes motion vectors indicating differences in positions between regions of the second frame and corresponding regions of the first frame, the motion vectors defining the correspondence between regions of the second frame and regions of the first frame. The first frame is decoded and a re-mapping strategy for video enhancement of the decoded first frame is determined using a region-based analysis. Regions of the decoded first frame are re-mapped according to the determined video enhancement re-mapping strategy for the first frame so as to enhance the first frame. The motion vectors for the second frame are recovered from the video stream and the second frame is decoded.
    • 包含经编码的基于帧的视频信息的视频流包括第一帧和第二帧。 第二帧的编码取决于第一帧的编码。 编码包括指示第二帧的区域与第一帧的对应区域之间的位置差异的运动矢量,运动矢量定义第二帧的区域和第一帧的区域之间的对应关系。 第一帧被解码,并且使用基于区域的分析确定用于解码的第一帧的视频增强的重新映射策略。 根据确定的第一帧的视频增强重映射策略重新映射解码的第一帧的区域,以便增强第一帧。 从视频流恢复第二帧的运动矢量,并且解码第二帧。
    • 5. 发明申请
    • METHOD FOR DETECTING A BLOCK RASTER
    • 检测块式放电机的方法
    • US20110222780A1
    • 2011-09-15
    • US13120120
    • 2009-09-21
    • Ulrich Niedermeier
    • Ulrich Niedermeier
    • G06K9/48
    • H04N19/86H04N19/117H04N19/119H04N19/14H04N19/176H04N19/182H04N19/80
    • The present invention describes a method for the detection of a block raster in an image that has a plurality of pixels, to each of which at least one pixel value is assigned and which are situated one next to another along horizontal and vertical pixel boundaries (x0, x0+1), the method including: a) defining a raster having raster boundaries (xj+dxj), which run either parallel to the vertical pixel boundaries or parallel to the horizontal pixel boundaries, and the position of which is specified by an offset (OF) and a spacing (SP) between them; b) ascertaining a raster dimension of the raster which is a function of the edge dimensions; of at least some of the raster boundaries (xj+dxj) of the raster. c) repeating the method steps a) and b) at least once for an additional raster; d) selecting one of the rasters taking into account the raster dimensions ascertained for the individual rasters.
    • 本发明描述了一种用于检测具有多个像素的图像中的块光栅的方法,其中至少一个像素值被分配并且沿水平和垂直像素边界(x0 ,x0 + 1),所述方法包括:a)定义具有平行于垂直像素边界或平行于水平像素边界的光栅边界(xj + dxj)的光栅,并且其位置由 偏移(OF)和间距(SP); b)确定作为边缘尺寸的函数的光栅的光栅尺寸; 的栅格边界(xj + dxj)中的至少一些。 c)对另外的光栅重复方法步骤a)和b)至少一次; d)选择其中一个光栅,同时考虑到为各个光栅确定的光栅尺寸。
    • 7. 发明授权
    • Device and method for noise suppression
    • 用于噪声抑制的装置和方法
    • US07930174B2
    • 2011-04-19
    • US11133146
    • 2005-05-19
    • Chiron Van der BurgtHans Fiesel
    • Chiron Van der BurgtHans Fiesel
    • G10L21/02
    • H04B1/1036
    • An analog signal is sampled to provide a digitized signal and the resultant digitized signal is output to a delay element, which provides a delayed digital signal. The analog signal is also input to an analog noise detector, which provides a noise detector output signal to a digital logic unit. The digital logic unit processes the noise detector output signal to determine if noise is present in the analog signal, and provides a control signal. An amplifier receives the delayed digital signal and reduces a gain applied to the delayed digital signal in response to the control signal, and provides an amplifier output signal.
    • 模拟信号被采样以提供数字化信号,并且所得到的数字化信号被输出到延迟元件,延迟元件提供延迟的数字信号。 模拟信号也被输入到模拟噪声检测器,该噪声检测器向数字逻辑单元提供噪声检测器输出信号。 数字逻辑单元处理噪声检测器输出信号以确定模拟信号中是否存在噪声,并提供控制信号。 放大器响应于控制信号接收延迟的数字信号并减小施加到延迟数字信号的增益,并提供放大器输出信号。
    • 10. 发明授权
    • Iterative method of interpolating image information values
    • 内插图像信息值的迭代方法
    • US07843509B2
    • 2010-11-30
    • US11540484
    • 2006-09-28
    • Marko HahnMarkus Schu
    • Marko HahnMarkus Schu
    • H04N7/01H04N11/20
    • G06T3/4007H04N7/012H04N7/014
    • The invention relates to an iterative method for determining an interpolated image information value in an image that comprises a number of image regions arranged in a matrix-like fashion having original image regions to which one image information value has been assigned, and having at least one image region to be interpolated. In order to determine an interpolated image information value, the method specifies a starting interpolation direction and determines a quality measure for the starting interpolation direction. At least one image direction is selected different from the starting interpolation direction and determining a quality measure for this at least one image direction. The quality measures for the starting interpolation direction are compared and the at least one image direction different from the starting interpolation direction, selecting as the interpolation direction the starting interpolation direction or the at least one image direction, and determining the interpolated image information value using image regions that are located in the interpolation direction adjacent to the to-be-interpolated first image region. The steps of selecting and comparing are repeated at least once.
    • 本发明涉及一种用于确定图像中的内插图像信息值的迭代方法,该图像包括以矩阵状排列的具有原始图像区域的多个图像区域,其中已经分配了一个图像信息值,并具有至少一个 要插值的图像区域。 为了确定内插图像信息值,该方法指定起始插入方向,并确定起始插入方向的质量度量。 选择与起始插入方向不同的至少一个图像方向,并且确定该至少一个图像方向的质量测量。 比较起始插补方向的质量度量和与起始插入方向不同的至少一个图像方向,选择作为插入方向的起始插入方向或至少一个图像方向,并且使用图像确定内插图像信息值 位于与被插值的第一图像区域相邻的插值方向的区域。 选择和比较的步骤至少重复一次。