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    • 1. 发明授权
    • Signal processing apparatus
    • 信号处理装置
    • US06822694B2
    • 2004-11-23
    • US09203923
    • 1998-12-02
    • Shinichiro MiyazakiHiroyuki KojimaAkira ShirahamaHiroshi Sugaya
    • Shinichiro MiyazakiHiroyuki KojimaAkira ShirahamaHiroshi Sugaya
    • H04N968
    • H04N9/76
    • According to the signal processing apparatus of the present invention, in a text signal processing circuit, predetermined signal processes are executed to a luminance signal Y and color difference signals U and V in which a ratio of sampling clocks is equal to (4:4:4) and resultant signals are supplied to a mixing circuit. In a video signal processing circuit, predetermined signal processes are executed to the signals Y, U, and V in which a ratio of sampling clocks is equal to (4:1:1) or (4:2:2). The signal Y is supplied to the mixing circuit through a delay adjusting circuit and the high frequency components are removed from the signals U and V by a band limiting filter and, after that, the resultant signals are supplied to the mixing circuit. The signal mixed by the mixing circuit is supplied to a LPF through a D/A converter. In the LPF, the signal is demodulated by the band limiting filter according to (4:4:4).
    • 根据本发明的信号处理装置,在文本信号处理电路中,对亮度信号Y和采样时钟的比例等于(4:4:4)的色差信号U,V执行规定的信号处理, 4),并将合成信号提供给混合电路。 在视频信号处理电路中,对采样时钟的比例等于(4:1:1)或(4:2:2)的信号Y,U和V执行预定的信号处理。 信号Y通过延迟调整电路提供给混合电路,并通过频带限制滤波器从信号U和V中去除高频分量,然后将所得到的信号提供给混频电路。 由混合电路混合的信号通过D / A转换器提供给LPF。 在LPF中,信号由(4:4:4)的带限滤波器解调。
    • 3. 发明授权
    • Apparatus and method for enlarging/reducing a video picture size
    • 用于放大/缩小视频图像尺寸的装置和方法
    • US06311328B1
    • 2001-10-30
    • US08867768
    • 1997-06-03
    • Shinichiro MiyazakiAkira ShirahamaTakeshi OnoNobou Ueki
    • Shinichiro MiyazakiAkira ShirahamaTakeshi OnoNobou Ueki
    • H04N1393
    • G06T3/4007
    • A picture processing apparatus for picture-in-picture applications where the number of pixels n in the horizontal direction of an original picture, the number of pixels m in the vertical direction thereof, the number of pixels N in the horizontal direction of the converted picture, and the number of pixels M in the vertical direction thereof are supplied to a dividing device. Thus, ratios A=N/n and B=M/m are obtained. The inverse number 1/A of the value A is cumulated by circuits. An address generating circuit generates addresses at four points for calculating a density value a of a converted pixel corresponding to the integer part of a cumulated value &Sgr;(1/A). These addresses are supplied to memories. The pixel data at the four points that are read from the memories are supplied to respective multiplying devices. The decimal part of the value &Sgr;(1/A) is supplied as an interpolating coefficient p to a multiplying device. A coefficient (1−q) is supplied to a multiplying device. Likewise, in the vertical direction, coefficients q and (1−q) are supplied to respective multiplying devices. These multiplying devices and adding devices perform operations. Thus, the density value a of the converted pixel is obtained and supplied from a terminal.
    • 一种用于画中画应用的图像处理装置,其中原始图像的水平方向上的像素数n,垂直方向上的像素数m,转换图像的水平方向上的像素数N ,并且其垂直方向上的像素数M被提供给分割装置。 因此,获得比A = N / n和B = M / m。 值A的倒数1 / A由电路累积。 地址发生电路在四点产生地址,用于计算与累积值SIGMA(1 / A)的整数部分对应的转换像素的浓度值a。 这些地址被提供给存储器。 从存储器读取的四个点处的像素数据被提供给各个乘法装置。 值SIGMA(1 / A)的小数部分作为内插系数p提供给乘法装置。 系数(1-q)被提供给乘法装置。 类似地,在垂直方向上,系数q和(1-q)被提供给各个乘法装置。 这些乘法装置和附加装置执行操作。 因此,从终端获得并提供转换像素的密度值a。
    • 5. 发明授权
    • Image processing apparatus, method and providing medium
    • 图像处理装置,方法和提供介质
    • US06674478B2
    • 2004-01-06
    • US09365937
    • 1999-08-02
    • Shinichiro MiyazakiAkira ShirahamaTakeshi Ohno
    • Shinichiro MiyazakiAkira ShirahamaTakeshi Ohno
    • H04N1120
    • H04N7/01G06T3/40H04N5/46H04N7/012
    • The invention provides an image processing apparatus and method as well as a providing medium by which deterioration of the vertical resolution is prevented and conspicuous appearance of line flickering is suppressed. In order to convert an interlaced video signal having 525 scanning lines into another progressive video signal having 525 scanning lines while maintaining the image size, in an odd-numbered field, a line after conversion is offset by 0.5 H (H is the distance between horizontal scanning lines of the inputted video signal). Consequently, pixel data of each line Oi are produced from pixel data of two lines Ii and Ii+1 before conversion. As a result, pixels of a line on the boundary between white pixels and black pixels have a gray color. In an odd-numbered field, no offset is given, and pixel data of each line I1 of the field before conversion are set as they are as pixel data of each line Oi of the field after conversion. The pixels of the line on the boundary between the white and black pixels become white or gray pixels, and consequently, when compared with an alternative case wherein such pixels on the boundary line are white and black pixels, line flickering is prevented from being observed conspicuously on a display screen.
    • 本发明提供一种图像处理装置和方法以及提供用于防止垂直分辨率的劣化并提供明显的线条闪烁的提供介质。 为了将具有525条扫描线的隔行视频信号转换为具有525条扫描线的另一个逐行视频信号,同时保持图像大小,在奇数场中,转换后的行被偏移0.5H(H是水平之间的距离 扫描输入视频信号的行)。 因此,在转换之前,通过两行Ii和Ii + 1的像素数据产生每行Oi的像素数据。 结果,白色像素和黑色像素之间的边界上的线的像素具有灰色。 在奇数场中,没有给出偏移,并且将转换之前的场的每一行I1的像素数据设置为转换后的场的每行Oi的像素数据。 白色和黑色像素之间的边界上的线的像素变为白色或灰色像素,因此,当与边界线上的这些像素是白色和黑色像素的替代情况相比,防止线闪烁被明显地观察 在显示屏幕上。
    • 8. 发明授权
    • Image processing apparatus, image processing method, and television receiver
    • 图像处理装置,图像处理方法和电视接收机
    • US06441863B1
    • 2002-08-27
    • US09355073
    • 1999-08-23
    • Shinichiro MiyazakiAkira ShirahamaTakeshi Ohno
    • Shinichiro MiyazakiAkira ShirahamaTakeshi Ohno
    • H04N5445
    • H04N5/45H04N9/64H04N21/4263H04N21/4316
    • There is provided delay means for allowing a delay difference to be provided between the timing of image size information which is set into writing side memory control means and the timing of image size information which is set into reading side memory control means in a manner such that the image size when data is written into first and second field memories and the image size when the data is read out from the first and the second field memories coincide. The image size information is set into the writing side memory control means and the reading side memory control means so as to have a delay difference between them. The image size is set by controlling the first and the second field memories in accordance with the image size information by the writing side memory control means and the reading side memory control means. A switching control of every field is performed in a manner such that while the writing process is performed to one of the field memories, the reading process is performed to the other field memory.
    • 提供了延迟装置,用于允许在设置在写入侧存储器控制装置中的图像尺寸信息的定时与设置在读取侧存储器控制装置中的图像尺寸信息的定时之间提供延迟差, 当数据被写入第一和第二场存储器时的图像大小以及当从第一和第二场存储器读出数据时的图像大小一致。 图像尺寸信息被设置在写入侧存储器控制装置和读取侧存储器控制装置中,以便在它们之间具有延迟差。 通过由写入侧存储器控制装置和读取侧存储器控制装置根据图像尺寸信息控制第一和第二场存储器来设置图像尺寸。 以这样的方式执行每个场的切换控制,即当对一个场存储器执行写入处理时,对另一场存储器执行读取处理。
    • 9. 发明授权
    • Picture processing apparatus and processing method
    • 图像处理装置及处理方法
    • US06219104B1
    • 2001-04-17
    • US08989586
    • 1997-12-12
    • Akira ShirahamaShinichiro MiyazakiTakeshi OnoNobuo Ueki
    • Akira ShirahamaShinichiro MiyazakiTakeshi OnoNobuo Ueki
    • H04N701
    • G06T3/4007
    • An interpolation interval Vdp obtained by the picture sizes of the original picture and the converted picture is cumulated by an adder. In the odd field, a selector selects [0.5] as an offset corresponding to an odd/even field determination signal. In the even field, the selector selects [0] as an offset corresponding to the odd/even field determination signal. In a vertical blanking interval, the offset is selected as an output. Thus, in the odd field, the offset value [0.5] is added to the cumulated value of Vdp. Thereafter, Vdp is cumulated again. Corresponding to the cumulated value, a line read address n and linear interpolating coefficients qn1 and qn2 are obtained. When Vdp is cumulated, offsets corresponding to the scanning start points in the odd field and the even field are added. Thus, the interlace accuracy is kept.
    • 由原始图像和转换图像的图像尺寸获得的插值间隔Vdp由加法器累积。 在奇数场中,选择器选择[0.5]作为与奇数/偶数场确定信号相对应的偏移量。 在偶数场中,选择器选择[0]作为与奇数/偶数场确定信号相对应的偏移量。 在垂直消隐间隔中,选择偏移量作为输出。 因此,在奇数场中,偏移值[0.5]被加到Vdp的累积值。 此后,再次累积Vdp。 对应于累积值,获得行读地址n和线性内插系数qn1和qn2。 当Vdp被累积时,相加于奇数场和偶数场中的扫描开始点的偏移量相加。 因此,保持隔行精度。
    • 10. 发明授权
    • Image processing apparatus and processing method
    • 图像处理装置及处理方法
    • US6067124A
    • 2000-05-23
    • US8041
    • 1998-01-16
    • Akira ShirahamaShinichiro MiyazakiTakeshi OhnoNobuo Ueki
    • Akira ShirahamaShinichiro MiyazakiTakeshi OhnoNobuo Ueki
    • H04N5/262G06T3/40G09G5/36
    • G06T3/4007
    • When an image size is changed by using a linear interpolating process, a picture quality is improved so as not to overlap the position of an original signal and the position of an interpolation signal. An interpolation interval Vdp which is derived from an original image and an image size after the conversion is stored into a register of an input side and is accumulated and added by an adder from a register of an output side through a selector. A predetermined calculation is performed and an offset value q.sub.0 is obtained in a circuit. The value q.sub.0 is selected by the selector and the register of the output side is initialized for a vertical blanking period. Thus, a value (.delta.+nVdp) in which the value q.sub.0 was added to the accumulation value of Vdp is derived. On the basis of the value (.delta.+nVdp), a read address (n) of the original image and linear interpolation coefficients q.sub.n1 and q.sub.n2 are obtained. A similar process is also executed for the horizonal direction and an address (m) and coefficients p.sub.n1 and p.sub.n2 are obtained. A proper offset value is added to the interpolating position and the picture quality can be improved without overlapping the original signal and the interpolating position.
    • 当通过使用线性内插处理改变图像尺寸时,改善图像质量,以便不与原始信号的位置和插值信号的位置重叠。 从原始图像导出的内插间隔Vdp和转换后的图像尺寸被存储到输入侧的寄存器中,并且通过加法器从输出侧的寄存器通过选择器累加并相加。 执行预定的计算,并且在电路中获得偏移值q0。 选择器选择值q0,输出侧的寄存器在垂直消隐期间初始化。 因此,导出将值q0加到Vdp的累加值的值(delta + nVdp)。 基于值(delta + nVdp),获得原始图像的读取地址(n)和线性内插系数qn1和qn2。 对于水平方向也执行类似的处理,并且获得地址(m)并且获得系数pn1和pn2。 将适当的偏移值添加到内插位置,并且可以改善图像质量,而不会重叠原始信号和内插位置。