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    • 1. 发明授权
    • Method of image segmentation
    • 图像分割方法
    • US6044114A
    • 2000-03-28
    • US838488
    • 1997-04-07
    • Achim IbenthalSven SiggelkowRolf-Rainer Grigat
    • Achim IbenthalSven SiggelkowRolf-Rainer Grigat
    • H04N5/7826H04N5/92H04N9/797H04N9/815H04N19/543H04N7/36
    • H04N19/543H04N19/20
    • For time-sequential segment tracing, also of moving regions, a method of segmenting time-sequential images of a picture signal, in which, within an image, the image is split up into regions during its segmentation, and in which adjacent pixels having similar luminance and/or chrominance values are associated with a region is characterized in that it is attempted in time-sequential images to retrace regions of an image I.sub.n in a subsequent image I.sub.n+1 by performing a motion estimation of the regions of the image I.sub.n, in that the new position of the region in the image I.sub.n+1 is determined with reference to the motion vectors determined for each region by means of the motion estimation, in that subsequently the displaced regions are adapted to the image contents of the image I.sub.n+1, and in that pixels of the image I.sub.n+1 not covered by these adapted regions are added to one of these regions or to newly formed regions.
    • 对于时间序列跟踪,也是移动区域,分割图像信号的时间顺序图像的方法,其中在图像内的图像在其分割期间被分割成区域,并且其中具有相似的相邻像素 亮度和/或色度值与区域相关联的特征在于,通过对图像In的区域进行运动估计,在时序图像中尝试对后续图像In + 1中的图像In的区域进行回扫, 因为参考通过运动估计为每个区域确定的运动矢量来确定图像In + 1中的区域的新位置,随后移位的区域适合于图像的图像内容In + 并且由这些适应区域未被覆盖的图像In + 1的像素被添加到这些区域之一或新形成的区域。
    • 2. 发明授权
    • Method of fractal image coding and arrangements for performing the method
    • 分形图像编码方法及其执行方法
    • US5850262A
    • 1998-12-15
    • US838481
    • 1997-04-07
    • Achim IbenthalDetlef GottingRolf-Rainer Grigat
    • Achim IbenthalDetlef GottingRolf-Rainer Grigat
    • G06T9/00H04N19/00H04N19/54H04N19/90H04N19/94H04N7/36
    • H04N19/00H04N19/54H04N19/94H04N19/99
    • To achieve an enhanced data reduction, a method of fractal image coding, in which method an image to be encoded is divided into range blocks which do not overlap and jointly cover the image contents completely, in which domain blocks comprising areas of the image contents in their original form or in a transformed form are generated from the image contents, and all areas of the image contents are covered by at least one domain block, for each range block the domain block most similar to the range block being searched, and the addresses of the domain blocks found as the most similar and possibly the transform functions used for their generation being transmitted instead of the data of the range blocks, is characterized in that, in a sequence of images, the fractal image coding performed exclusively within the images is only performed with basic images comprised in the image sequence at selectable time intervals, in that, for intermediate images provided between the basic images, the same range and domain block division is used as for the basic images, and in that, individually for each range block in a search area, that domain block is searched in an intermediate image which was found as the most similar in the previous image for the range block of the same position, and in that, if said domain block is found in the search area, the displacement vectors of this block relative to the domain block found as the most similar in the previous image are transmitted instead of the address and possibly the transform function.
    • 为了实现增强的数据缩减,分形图像编码的方法中,将要编码的图像划分为不重叠的范围块,并且完全共同地覆盖图像内容,其中包括图像内容的区域的域块 它们的原始形式或以变换形式从图像内容产生,并且图像内容的所有区域被至少一个域块覆盖,对于每个范围块,与正在搜索的范围块最相似的域块,以及地址 被发现是最相似的并且可能地用于其生成的变换函数而不是范围块的数据的域块的特征在于,在图像序列中,专门在图像内执行的分形图像编码是 仅以可选择的时间间隔包含在图像序列中的基本图像执行,其中,对于在基本图像之间提供的中间图像,sam 使用范围和域块划分用于基本图像,并且对于搜索区域中的每个范围块单独地搜索该域块,在中间图像中被搜索为在前一图像中最相似的 相同位置的范围块,并且如果在搜索区域中找到所述域块,则发送该块相对于在先前图像中最相似的域块的位移向量而不是地址,并且可能 变换函数。
    • 3. 发明授权
    • Method of data reduction by means of fractal image coding
    • 通过分形图像编码减少数据的方法
    • US6163628A
    • 2000-12-19
    • US639987
    • 1996-04-26
    • Achim IbenthalDetlef GottingRolf-Rainer Grigat
    • Achim IbenthalDetlef GottingRolf-Rainer Grigat
    • H04N11/04G06T1/00G06T9/00H03M7/30H04N1/41H04N9/77H04N19/90G06K9/36G06K9/46
    • H04N19/99G06T9/001
    • In a method of data reduction of a luminance and/or chrominance signal of a digital picture signal by means of fractal image coding, in which method each image of the luminance/chrominance signal is divided into range blocks of n.times.n pixels each, in which a domain block is searched for each range block, which domain block is imageable on the range block with a minimal deviation while using a transformation function, which domain blocks have a larger size than the range blocks, and in which information on the transformation functions is transmitted, from which information the image data are regained at the receiver end in an iterative process, the search is facilitated in that a digital search tree strategy is employed in the search for that domain block which is imageable on a range block with a minimal deviation while using a transformation function.
    • 在通过分形图像编码对数字图像信号的亮度和/或色度信号进行数据缩减的方法中,在该方法中,亮度/色度信号的每个图像被分成n×n个像素的范围块,其中, 搜索每个范围块,使用变换函数,哪个域块具有最小偏差的范围块上的哪个域块是可成像的,哪个域块具有比范围块大的大小,并且其中传输关于变换函数的信息 在迭代过程中,从接收机端重新获得图像数据的信息,便于搜索使用数字搜索树策略来搜索可在最小偏差的范围块上成像的域块,而 使用转换函数。
    • 4. 发明授权
    • Method of data reduction by means of a fractal image coding and encoder
and decoder for performing the method
    • US5995673A
    • 1999-11-30
    • US639860
    • 1996-04-26
    • Achim IbenthalDetlef GottingRolf-Rainer Grigat
    • Achim IbenthalDetlef GottingRolf-Rainer Grigat
    • G06T9/00H03M7/30H04N1/41H04N11/04H04N19/90G06K9/36G06K9/46
    • H04N19/99G06T9/001H04N11/044
    • In a method of data reduction of a luminance and/or chrominance signal of a digital picture signal by means of fractal image coding, in which method each image of the luminance/chrominance signal is divided into range blocks of n.times.n pixels each, in which a domain block is searched for each range block, which domain block is imageable on the range block with a minimal deviation while using a transformation function, which domain blocks have twice the size of the range blocks, and in which information on the transformation functions is transmitted, from which information the image data are regained at the receiver end in an iterative process, the search for appropriate domain blocks is facilitated in that the data of each range block are examined on geometrical basis functions which are possibly satisfactory approximations of the data structure of the range block, in that a difference value is computed from the basis function found for the best approximation of the data structure of the range block and the data of the range block, which difference value represents a residual roughness, in that the data of the domain blocks are examined on geometrical basis functions which are possibly satisfactory approximations of the data structure of the domain block, in that a difference value is computed from the basis function found for the best approximation of the data structure of the domain block and the data of the domain block, which difference value represents a residual roughness, in that the search for the domain block which is imageable on a range block with a minimal deviation, and the associated transformation function is performed with reference to the computed difference values of the range block and the computed difference values of the domain blocks, and in that information on the mutually balanced basis functions of this block and of the most favorable domain block, as well as the transformation function, by means of which the most favorable domain block is imageable on the range block, is transmitted for each range block as a data-reduced data current instead of the luminance/chrominance signal.
    • 5. 发明授权
    • Method and arrangement for computing pixel values of pixels of a digital
picture signal that are arranged outside a two-dimensional scanning
raster
    • 用于计算布置在二维扫描光栅之外的数字图像信号的像素的像素值的方法和装置
    • US6069661A
    • 2000-05-30
    • US70218
    • 1998-04-30
    • Achim Ibenthal
    • Achim Ibenthal
    • G06F17/17G06T3/40H04N7/01H04N19/59H04N19/80
    • G06F17/17G06T3/4007H04N19/59H04N19/80H04N7/01
    • A method and arrangement for computing values of pixels arranged outside a 2-dimensional scanning raster of pixels having pixel values of a digital picture signal, where at least 3 of 4 reference pixels arranged around the searched pixel are determined for computing a searched pixel value s.sub.i (x.sub.0 +.DELTA.x,y.sub.0 +.DELTA.y). A polynomial p(x,y) in the form c.sub.m-1 x.sup.am-1 y.sup.bm-1 +c.sub.m-2 x.sup.am-2 y.sup.bm-2 + . . . +c.sub.2 x+c.sub.1 y+c.sub.0 is constituted corresponding to their values. Next, k 1st derivatives .delta.s(x,y)/.delta.x in the x-direction and .delta.s(x,y)/.delta.x in the y-direction are formed from at least one of the reference pixel values. Then, a matrix is formed whose elements consist of the values of the basic functions x.sup.am-1 y.sup.bm-1,x.sup.am-2 y.sup.bm-2, . . . x,y,1 of the polynomial at at least 3 of the reference pixels and the k 1st derivatives .delta.p(x,y)/.delta.x in the x-direction and .delta.p(x,y)/.delta.y in the y-direction of the basic functions at at least one of the reference pixel values. The basic functions are allocated to a reference pixel or a 1st derivative of a reference pixel in one matrix row. An inverse or pseudo-inverse matrix is formed from the matrix by means of inversion and multiplied by an observation vector for determining the polynomial coefficients c.sub.m-1 through c.sub.0. The polynomial coefficients are introduced into polynomial p(x,y) and the new pixel value s.sub.i (x.sub.0 +.DELTA.x,y.sub.0 +.DELTA.y) is computed from the function value of the polynomial p(.DELTA.x,.DELTA.y) at the location (.DELTA.x, .DELTA.y).
    • 一种用于计算布置在具有数字图像信号的像素值的像素的二维扫描光栅之外的像素的值的方法和装置,其中确定了围绕所搜索的像素布置的4个参考像素中的至少3个,用于计算搜索的像素值si (x0 + DELTA x,y0 + DELTA y)。 形式为cm-1 -amam-1ybm-1 + cm-2mam-2ybm-2 +的多项式p(x,y)。 。 。 + c2x + c1y + c0对应于它们的值构成。 接下来,从至少一个参考像素值形成x方向上的k个第一导数Δs(x,y)/ delta x和y方向上的δs(x,y)/ delta x。 然后,形成矩阵,其元素由基本函数xam-1ybm-1,xam-2ybm-2的值组成。 。 。 x,y,1,x方向上的k个第一导数delta p(x,y)/ delta x和y中的δp(x,y)/ delta y的多项式的x,y, 在至少一个参考像素值的基础函数的方向。 基本功能被分配给一个矩阵行中的参考像素或参考像素的一阶导数。 通过反演由矩阵形成逆矩阵或伪逆矩阵,并乘以用于确定多项式系数cm-1至c0的观测向量。 将多项式系数引入到多项式p(x,y)中,并且从位置处的多项式p(DELTA x,DELTA y)的函数值计算新的像素值si(x0 + DELTA x,y0 + DELTA y) x,DELTA y)。
    • 6. 发明授权
    • Circuit arrangement for synchronizing a data stream
    • 用于同步数据流的电路布置
    • US5493589A
    • 1996-02-20
    • US273533
    • 1994-07-11
    • Achim Ibenthal
    • Achim Ibenthal
    • H04N5/04H04L7/00H04L25/05H04N5/907H04N5/956H04N7/01H04N7/56H04L7/04
    • H04L25/05H04N7/0105H04N7/56
    • A circuit for converting samples of data received at a high sampling rate into data samples at a low sampling rate integrally related to the high sampling rate and with the low rate samples synchronized with the high rate samples without a complex phase control apparatus. A memory stores and transfers data under control of write and read address signals. The read address signals are derived by combining the write address signals with a difference address signal generated by a circuit including a modulo counter with a modulus corresponding to the integral ratio between the high and low sampling rates, a first sample-and-hold circuit for storing the count of the modulo counter and supplying its count to an allocating circuit which generates the difference address signal and supplies same to a combining circuit. A decoder controlled by the modulo counter supplies a clock signal at the low sampling rate to a second sample-and-hold circuit fed with data from the memory. The second sample-and-hold circuit outputs synchronized data at the low sampling rate.
    • 用于将以高采样率接收的数据的样本转换成与高采样率一体地相关的低采样率的数据样本和与高速率样本同步的低速率采样而不使用复相控制装置的电路。 存储器在写和读地址信号的控制下存储和传送数据。 通过将写入地址信号与由包括模计数器的电路产生的差分地址信号组合而得到的读取地址信号具有对应于高和低采样率之间的积分比的模数,第一采样和保持电路 存储模计数器的计数并将其计数提供给生成差分地址信号的分配电路,并将其提供给组合电路。 由模计数器控制的解码器将低采样率的时钟信号提供给馈送有来自存储器的数据的第二采样保持电路。 第二采样保持电路以低采样率输出同步数据。
    • 7. 发明授权
    • Method of fractal image coding and arrangement of performing the method
    • 分形图像编码方法和执行方法的布置
    • US5974188A
    • 1999-10-26
    • US960392
    • 1997-10-29
    • Achim Ibenthal
    • Achim Ibenthal
    • G06T9/00H04N1/41H04N19/90G06K9/36G06K9/46
    • H04N19/99G06T9/001
    • Fractal image coding of single images or image sequences is described, which yields an improvement of the encoding result as well as a reduction of computations, whereineach image is divided into range blocks which do not overlap and jointly comprise the complete image contents,range regions are generated, each comprising a range block which is smaller than the range region concerned, and the rest of the range region is filled up with a predetermined signal value,domain regions are generated having the same size as the range regions and comprise parts of the image contents, preferably also in a transformed form,the image data of the range regions and the domain regions are subjected to a Fourier transform,a conjugate-complex signal is formed from one of the two transformed signals and multiplied by the other signal,this product is normalized at a predetermined amplitude,the normalized signal is subjected to an inverse Fourier transform,for each range region, the maximum value of this retransformed signal is determined, indicating, within a domain region, the position of that domain block whose image contents best approximate the image contents of the range block,for these domain blocks, those scaling and offset factors are determined which, when used for the domain blocks found, enable these domain blocks to be imaged on the range blocks with the smallest deviation, andthe encoded signal comprises the addresses of these domain blocks, whose image contents best approximate the range blocks, the scaling and offset factors.
    • 描述单个图像或图像序列的分形图像编码,其产生编码结果的改进以及计算的减少,其中每个图像被划分为不重叠的范围块并且共同地包括完整的图像内容,范围区域 ,其中每一个包括小于相关范围区域的范围块,并且用预定信号值填充范围区域的其余部分,产生具有与范围区域相同尺寸的畴区域,并且包括 图像内容,优选也以变换形式,对范围区域和域区域的图像数据进行傅立叶变换,从两个变换信号中的一个形成共轭复信号并乘以另一个信号,这 产品以预定的幅度被归一化,归一化信号对于每个范围区域进行逆傅里叶变换,即最大值o f确定这个重新发送的信号,指示在域区域内,其图像内容最接近于范围块的图像内容的该域块的位置,对于这些域块,确定那些缩放和偏移因子,当用于 找到的域块使得这些域块能够以偏离最小的范围块成像,并且编码信号包括这些域块的地址,其图像内容最接近于范围块,缩放和偏移因子。
    • 8. 发明授权
    • Method of interframe interpolation of color difference signals, and
circuit arrangement for performing said method
    • 色差信号的帧间插值方法,以及用于执行所述方法的电路装置
    • US5771074A
    • 1998-06-23
    • US700703
    • 1996-07-10
    • Achim Ibenthal
    • Achim Ibenthal
    • H04N9/74G09G5/00H04N5/44H04N9/64H04N7/01
    • H04N7/0132H04N9/646
    • To avoid color defects in the motion-compensated luminance signal, which defects occur in non-motion-compensative time-interpolation of the color signal, a method includes the steps of generating a second color difference signal from a first color difference signal supplied at a first field repetition frequency by way of field repetition, the second color difference signal having a second field repetition frequency which is doubled with respect to the first field repetition frequency, generating a third, time-averaged color difference signal from the second color difference signal by time-averaging of two consecutive fields, generating a fourth, spatially high-resolution color difference signal by a spatially high-resolution interpolation of two consecutive fields from the second color difference signal, forming a fifth color difference signal to be supplied as a linear combination of the third and the fourth color difference signals by means of coefficients which are complementary with respect to a constant, and determining, in accordance with a vertical spatial frequency, which can be derived from picture contents representable by the color difference signals, or in accordance with a local rate of motion, the coefficients in such a way that substantially the third color difference signal, and in the reverse case substantially the fourth color difference signal, are used for forming the fifth color difference signal in the linear combination in the case of rapid motion or low spatial frequencies.
    • 为了避免运动补偿亮度信号中的颜色缺陷,在彩色信号的非运动补偿时间插值中出现哪些缺陷,一种方法包括以下步骤:从第一色差信号 通过场重复的第一场重复频率,第二色差信号具有相对于第一场重复频率加倍的第二场重复频率,通过第二色差信号从第二色差信号产生第三,时间平均色差信号 通过对来自第二色差信号的两个连续场的空间高分辨率内插产生第四空间高分辨率色差信号,形成第五色差信号作为线性组合提供两个连续场的时间平均 的第三和第四色差信号 h相对于常数,并且根据垂直空间频率确定可以从由色差信号表示的图像内容或根据本地运动速率导出的系数,使得基本上 在快速运动或低空间频率的情况下,第三色差信号以及相反的情况基本上是第四色差信号用于形成线性组合中的第五色差信号。
    • 9. 发明授权
    • Methods of determining scaling factors for fractal image coding
    • 确定分形图像编码的缩放因子的方法
    • US5903678A
    • 1999-05-11
    • US960391
    • 1997-10-29
    • Achim Ibenthal
    • Achim Ibenthal
    • G06T9/00H04N1/41H04N19/90G06K9/36G06K9/46
    • H04N19/99G06T9/001
    • For fractal image coding optimal scaling factors for the image contents in the domain blocks are searched. Each image is divided into analysis blocks, which jointly represent the whole image. The analysis blocks are embedded in analysis regions, which contain besides the analysis blocks areas with a predetermined signal value. Also, comparison regions are formed, which contain at least parts of the image and which have the same size as the analysis regions. The analysis regions and the comparison regions are Fourier transformed. The transformed signals are converted logarithmically. The logarithmized signals are again Fourier-transformed. One of these signals is converted in its conjugate-complex form before both signals are multiplied. The product is normalized, so that it no longer contains amplitude information. Then the signal is subjected to an inverse Fourier-Transformation. If the signal has been logarithmized then it is de-logarithmized. The maximum of this signal then indicates the optimum frequency factors. By a further inverse Fourier-transformation the maximum of the signal indicates the optimal scaling factor that is searched.
    • 对于分形图像编码,搜索域块中图像内容的最佳缩放因子。 每个图像分为分析块,它们共同代表整个图像。 分析块嵌入在分析区域中,除了具有预定信号值的分析块区域之外。 此外,形成比较区域,其包含至少部分图像并且具有与分析区域相同的尺寸。 分析区域和比较区域被傅里叶变换。 转换的信号是对数转换的。 对数信号再次进行傅里叶变换。 在两个信号相乘之前,这些信号之一以其共轭复数形式被转换。 产品被归一化,使其不再包含振幅信息。 然后将信号进行傅里叶逆变换。 如果信号是对数的,则它是对数对数的。 该信号的最大值表示最佳频率因子。 通过进一步的傅里叶逆变换,信号的最大值表示搜索的最佳比例因子。
    • 10. 发明授权
    • Rapidly resettable counting device
    • 快速重置计数装置
    • US5481582A
    • 1996-01-02
    • US437247
    • 1995-05-08
    • Achim Ibenthal
    • Achim Ibenthal
    • H03K21/38H04N5/04
    • H04N5/04H03K21/38
    • A rapidly resettable counting device is described, which is particularly suitable for use in signal processors and which comprises a counter (1) receiving a clock signal at an input and supplying its output signal to a first register (2) clocked by the clock signal and to a second register (3) clocked by a reset signal, and a summing stage (4) by means of which the output signal of the second clocked register (3) is subtracted from the output signal of the first clocked register (2), which stage supplies the output signal of the counting device.
    • 描述了一种快速重置的计数装置,其特别适用于信号处理器,其包括计数器(1),其在输入端接收时钟信号,并将其输出信号提供给由时钟信号定时的第一寄存器(2);以及 到由复位信号定时的第二寄存器(3),和从第一时钟控制寄存器(2)的输出信号中减去第二时钟控制寄存器(3)的输出信号的求和级(4) 哪个阶段提供计数装置的输出信号。