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    • 1. 发明授权
    • False contour correcting apparatus and method
    • 假轮廓修正装置及方法
    • US07209182B2
    • 2007-04-24
    • US10616990
    • 2003-07-11
    • Minoru KawabataAtsuhisa KageyamaMasahiro Takeshima
    • Minoru KawabataAtsuhisa KageyamaMasahiro Takeshima
    • H04N5/57
    • H04N5/142H04N5/208H04N5/21H04N5/44H04N21/4318
    • A false contour correcting apparatus is capable of removing a false contour in an image based on a digital image signal while avoiding such a side effect caused by false contour correction where noises negatively effecting the display occur on a screen. Therefore, in the false contour correcting apparatus according, a double bit change detection circuit detects as a double bit change a signal value change which is twice a minimum quantization unit in a digital image signal, and outputs a double bit change detection signal representing the position of the double bit change. A signal correction circuit corrects the double bit change in the digital image signal into two one-bit changes on the basis of the double bit change detection signal. Consequently, a false contour corresponding to a portion where the double bit change exists is removed.
    • 假轮廓校正装置能够基于数字图像信号去除图像中的假轮廓,同时避免由于其中在屏幕上发生负面影响的噪声而导致的错误轮廓校正引起的这种副作用。 因此,在根据双位变化检测电路的双位改变检测电路中,将数字图像信号中的最小量化单位的两倍的信号值变化检测为双位变化检测电路,并输出表示位置的双位变化检测信号 的双位变化。 信号校正电路基于双位变化检测信号将数字图像信号中的双位变化校正为两个1位变化。 因此,与存在双位变化的部分对应的假轮廓被去除。
    • 3. 发明授权
    • Video signal character converting device and method of the same
    • 视频信号字符转换装置及其方法相同
    • US06295095B1
    • 2001-09-25
    • US09359597
    • 1999-07-23
    • Minoru KawabataAtsuhisa Kageyama
    • Minoru KawabataAtsuhisa Kageyama
    • H04N514
    • H04N5/57H04N5/44H04N21/4318
    • In a video signal character converting device, a sampling window signal generator generates a signal for sampling an input video signal “a”. A video scene amplitude discrimination circuit samples the video signal in response to the sampling signal, detects a change in image level either field by field or frame by frame based on an integrated value for every duration of vertical scanning, and outputs a resetting pulse when the change in picture level exceeds a predetermined level. A video scene periodicity discrimination circuit measures a time interval between two successive resetting pulses, and outputs a control signal if the time interval is shorter than a predetermined period. A video scene conversion circuit converts a video scene in response to the control signal. The video signal character detecting device of the present invention determines as to whether or not the input video signal has video images that present an adverse effect mentally and physically to viewers, by observing an image level and periodicity of the video signal in this manner. The device is thus able to output video images by converting them into a harmless level with a process of reducing contrast or blanking, if it determines the video images harmful.
    • 在视频信号字符转换装置中,采样窗口信号发生器产生用于对输入视频信号“a”进行采样的信号。 视频场景振幅鉴别电路响应于采样信号对视频信号进行采样,根据垂直扫描的每个持续时间的积分值逐场或逐帧地检测图像电平的变化,并且当 图像水平的变化超过预定水平。 视频场景周期性判别电路测量两个连续复位脉冲之间的时间间隔,并且如果时间间隔短于预定周期,则输出控制信号。 视频场景转换电路响应于控制信号转换视频场景。 本发明的视频信号字符检测装置通过以这种方式观察视频信号的图像级和周期性来确定输入视频信号是否具有对观看者的精神和物理上的不良影响的视频图像。 因此,如果确定视频图像有害,则该设备能够通过将它们转换成无害水平,并通过减少对比度或消隐的过程来输出视频图像。
    • 4. 发明授权
    • Pure red color detection circuit and color compensation circuit using
the same
    • 纯红色检测电路和色彩补偿电路采用相同
    • US6064447A
    • 2000-05-16
    • US35684
    • 1998-03-05
    • Hiroko SugimotoAtsuhisa KageyamaMasahiro TakeshimaMinoru Kawabata
    • Hiroko SugimotoAtsuhisa KageyamaMasahiro TakeshimaMinoru Kawabata
    • H04N9/64G09G1/28G09G5/02H04N9/68
    • H04N9/68
    • Red color saturation is increased and red color with higher purity can be reproduced by composing: a red color detection circuit 1 for detecting a red color signal having higher purity by inputting color differential signals (R-Y) and (B-Y) modulated by color subcarrier, subtracting the absolute value of the (B-Y) signal from the positive polarity component of the (R-Y) signal and removing the negative part of the subtracted signal; Y signal compensation block including: first gain controller 50b for controlling the output signal amplitude of red color detection circuit 1 and a subtracter 50a for subtracting the output signal of first gain controller 50b from a luminance signal Y; an (R-Y) signal compensation block including: second gain controller 51b for controlling the output signal amplitude of red color detection circuit 1 and an adder 51a for adding the output signal of second gain controller 51b and the input (R-Y) signal; and a (B-Y) signal compensation block including: third gain controller 52b for controlling the output signal amplitude of red color detection circuit 1, a polarity inverter 52c for inverting the output signal polarity of third gain controller 52b, a switch circuit 52d for selecting either input signal or output signal of polarity inverter 52c, a polarity discriminater 52e for discriminating the polarity of the input (B-Y) signal and controlling switch circuit 52d and an adder 52e for adding the output signal of switch circuit 52d and the input (B-Y) signal.
    • 增加红色饱和度,通过构成红色检测电路1,红色检测电路1,通过输入由彩色副载波调制的色差信号(RY)和(BY)来检测具有较高纯度的红色信号,减去红色, 来自(RY)信号的正极性分量的(BY)信号的绝对值,并去除相减信号的负部分; Y信号补偿块包括:用于控制红色检测电路1的输出信号幅度的第一增益控制器50b和用于从亮度信号Y减去第一增益控制器50b的输出信号的减法器50a; (R-Y)信号补偿块,包括:用于控制红色检测电路1的输出信号幅度的第二增益控制器51b和用于将第二增益控制器51b的输出信号和输入(R-Y)信号相加的加法器51a; 和(BY)信号补偿块,包括:用于控制红色检测电路1的输出信号幅度的第三增益控制器52b,用于反转第三增益控制器52b的输出信号极性的极性反相器52c, 极性反相器52c的输入信号或输出信号,用于识别输入(BY)信号的极性和控制开关电路52d的极性鉴别器52e和用于将开关电路52d的输出信号和输入(BY)信号相加的加法器52e 。