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    • 4. 发明授权
    • Intermittent driving type imaging device for portable terminal
    • 便携式终端的间歇式驱动型成像装置
    • US07324147B2
    • 2008-01-29
    • US10259452
    • 2002-09-30
    • Kozo IshidaTetsuya KunoKoichi YamashitaHiroaki SugiuraTakashi Itow
    • Kozo IshidaTetsuya KunoKoichi YamashitaHiroaki SugiuraTakashi Itow
    • H04N3/14H04N5/335
    • H04N5/2353H04N1/00307H04N5/217H04N5/2351
    • An imaging system controller (5) outputs a control signal (VC). The control signal (VC) gives a command to output driving clocks (φVn, φHm) of an imaging element (1) in a signal transmission period, and a command to suspend output of the clocks (φVn, φHm) in an idle period subsequent to the signal transmission period. The length of the idle period is a multiple of the length of the signal transmission period by a natural number. The imaging system controller (5) periodically repeats output of the control signal (VC) giving these commands a number of times corresponding to the number of horizontal lines of the imaging element (1). In response to the commands of the control signal (VC), a timing generator (2) generates and outputs the clocks (φVn, φHm), and suspends generation and output of the same. An imaging device (10) thereby intermittently drives the imaging element (1), to generate and output a picked-up image signal (V2).
    • 成像系统控制器(5)输出控制信号(VC)。 控制信号(VC)给出了在信号发送期间输出摄像元件(1)的驱动时钟(phiVn,phiHm)的命令,以及在空闲时段中暂停时钟(phiVn,phiHm)的输出的命令 到信号传输周期。 空闲周期的长度是信号传输周期的长度乘以自然数的倍数。 成像系统控制器(5)周期性地重复控制信号(VC)的输出,给出这些命令与成像元件(1)的水平线数相对应的次数。 响应于控制信号(VC)的命令,定时发生器(2)产生并输出时钟(phiVn,phiHm),并暂停其产生和输出。 成像装置(10)由此间歇地驱动成像元件(1),以产生并输出拾取图像信号(V 2)。
    • 7. 发明申请
    • Pixel signal processor and pixel signal processing method
    • 像素信号处理器和像素信号处理方法
    • US20070019087A1
    • 2007-01-25
    • US10582501
    • 2005-07-22
    • Tetsuya KunoJunko MakitaHiroaki SugiuraNarihrio MatobaMasashi Tamura
    • Tetsuya KunoJunko MakitaHiroaki SugiuraNarihrio MatobaMasashi Tamura
    • H04N9/04
    • H04N9/045
    • A pixel signal having a k-th spectral characteristic at a pixel interpolation position occupied by a pixel signal having an h-th spectral characteristic is generated from a set of pixel signals arrayed in a two-dimensional plane, each having one of a plurality of spectral characteristics, by calculating a difference between low-frequency components, corresponding to a degree of correlation between pixel signals having the k-th and h-th spectral characteristics in a neighborhood of the pixel interpolation position (8r, 8g, 8b, 24k, 24h, 26), calculating a non-correlation value corresponding to a degree of non-correlation between the pixel signals having the k-th and h-th spectral characteristics in the neighborhood of the pixel interpolation position (7r, 7g, 7b, 23k, 23h, 25), and obtaining the pixel signal having the k-th spectral characteristic at the pixel interpolation position by using the calculated difference and the non-correlation value (27, 28, 29). Accurate interpolation can be performed despite various different correlation relationships between color component values.
    • 在由二维平面中排列的像素信号的集合中生成具有由具有第h个光谱特性的像素信号占据的像素插值位置处的第k个光谱特性的像素信号,每个像素信号具有多个 频谱特性,通过计算与像素内插位置(8 r,8 g,8 b)相邻的第k和第h个光谱特性的像素信号之间的相关度相对应的低频分量之间的差异 ,24k,24h,26),计算与像素内插位置(7r)附近的第k和第h光谱特性的像素信号之间的非相关程度对应的非相关值 ,7g,7b,23k,23h,25),并且通过使用所计算的差异和非相关值(27,28,29)获得具有在像素插值位置处的第k个光谱特性的像素信号 )。 尽管颜色分量值之间存在各种不同的相关关系,仍可进行准确的插值。
    • 9. 发明授权
    • Video signal processor for detecting flesh tones in am image
    • 用于检测图像中的肉色的视频信号处理器
    • US5488429A
    • 1996-01-30
    • US999741
    • 1992-12-31
    • Kazuaki KojimaTetsuya KunoHiroaki SugiuraTakeshi Yamada
    • Kazuaki KojimaTetsuya KunoHiroaki SugiuraTakeshi Yamada
    • H04N9/04H04N5/208H04N5/232H04N5/235H04N9/64H04N9/68H04N9/74H04N9/75
    • H04N5/2621H04N5/208H04N5/23212H04N5/2351H04N9/643H04N9/646H04N9/75
    • A flesh-tone area is detected based on color-difference and luminance signals constituting video signals, and luminance correction, color correction, and aperture correction are performed only on the flesh-tone area or a human face area identified in the flesh-tone area. The setting of a focus area or the setting of a photometric area for iris control, automatic gain control, automatic shutter control, etc., in a video camera, is performed with respect to the flesh-tone area or the human face area. Furthermore, based on the color-difference and luminance signals constituting the video signals, a background area is detected, and the video signals are divided into components representing a background area and components representing an object area. An image signal of a desired hue or a still image is superimposed on the detected background area, or special processing is performed on the video signals representing the object area other than the detected background area.
    • 基于构成视频信号的色差和亮度信号检测肉色区域,仅在肉色区域或肉色区域中识别的人脸区域进行亮度校正,颜色校正和孔径校正 。 相对于肉色区域或人脸区域,执行摄像机中的焦点区域的设置或用于光圈控制,自动增益控制,自动快门控制等的测光区域的设置。 此外,基于构成视频信号的色差信号和亮度信号,检测背景区域,将视频信号分割成表示背景区域的分量和表示对象区域的分量。 所需色调或静止图像的图像信号叠加在检测到的背景区域上,或者对表示除了检测到的背景区域之外的对象区域的视频信号进行特殊处理。
    • 10. 发明授权
    • Imaging device
    • 成像设备
    • US07663668B2
    • 2010-02-16
    • US11547069
    • 2005-01-14
    • Tetsuya KunoHiroaki SugiuraTakashi ItowKoichi YamashitaKatsutoshi Sugiyama
    • Tetsuya KunoHiroaki SugiuraTakashi ItowKoichi YamashitaKatsutoshi Sugiyama
    • H04N5/238H04N9/68H04N3/14
    • H04N5/332H04N9/045
    • An imaging device has color signal generating means (20) for outputting first color signals (R5, G5, B5) corresponding to incident light, and matrix operation means (67) for performing a matrix calculation including multiplication of the first color signals, color signals obtained by raising the first color signals to a power with a first constant (i) as an exponent, color signals obtained by raising the first color signals to a power with a second constant (j) as an exponent, and corresponding matrix coefficients to obtain second color signals (R6, G6, B6). The first and second constants and the matrix coefficients are determined so that the total characteristics of the color signal generating means and the spectral sensitivity characteristic correction means (6) approximate human chromatic curves or spectral sensitivity curves obtained by a linear transformation thereof. Good color reproducibility can be obtained without the use of an infrared cut filter for chromatic correction in the imaging device, and high-sensitivity imaging can be performed under dark conditions.
    • 一种成像装置具有用于输出与入射光相对应的第一颜色信号(R5,G5,B5)的彩色信号发生装置(20)和用于执行矩阵运算的矩阵运算装置(67),该矩阵运算包括第一颜色信号,彩色信号 通过以第一常数(i)作为指数将第一颜色信号提高为功率,通过以第二常数(j)作为指数将第一颜色信号提高为功率而获得的颜色信号和相应的矩阵系数获得 第二颜色信号(R6,G6,B6)。 确定第一和第二常数和矩阵系数,使得颜色信号发生装置和光谱灵敏度特性校正装置(6)的总特性近似通过其线性变换获得的人类色彩曲线或光谱灵敏度曲线。 可以在成像装置中不使用用于色彩校正的红外截止滤光片而获得良好的色彩再现性,并且可以在黑暗条件下执行高灵敏度成像。