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    • 62. 发明申请
    • FOCUS DETECTION APPARATUS AND FOCUS DETECTION METHOD
    • 聚焦检测装置和聚焦检测方法
    • US20120162493A1
    • 2012-06-28
    • US13325667
    • 2011-12-14
    • Daisuke WakamiyaTakeshi Ogawa
    • Daisuke WakamiyaTakeshi Ogawa
    • H04N5/232
    • H04N5/23212H04N5/3696
    • A focus detection apparatus comprises: an image sensor that receives images that are formed by light that passes through different pupil regions of a photographing optical system including a focus lens, and outputs a pair of image signals; a control unit that controls to acquire a pair of image signals from the image sensor at first and second lens positions of the focus lens; a conversion unit that, by multiplying a shift amount between a pair of images representing the pair of image signals by a conversion coefficient, converts the shift amount to a defocus amount; and a calculation unit that calculates the conversion coefficient based on displacement amounts of respective ones of the pair of images representing the pair of image signals acquired at the first and second lens positions, and a displacement amount of the focus lens from the first lens position to the second lens position.
    • 焦点检测装置包括:图像传感器,其接收由穿过包括聚焦透镜的拍摄光学系统的不同瞳孔区域的光形成的图像,并输出一对图像信号; 控制单元,其控制在所述聚焦透镜的第一和第二透镜位置处获取来自所述图像传感器的一对图像信号; 转换单元,通过将表示所述一对图像信号的一对图像之间的偏移量乘以转换系数,将所述偏移量转换为散焦量; 以及计算单元,其基于表示在第一和第二透镜位置处获取的一对图像信号的一对图像中的各个图像的位移量以及聚焦透镜从第一透镜位置到第二透镜位置的位移量来计算转换系数 第二个镜头位置。
    • 63. 发明申请
    • IMAGE PICKUP APPARATUS HAVING IMAGE PICKUP ELEMENT THAT INCLUDES PIXELS USED AS BOTH FOCUS DETECTION PIXELS AND IMAGE PICKUP PIXELS
    • 具有图像拾取元件的图像拾取装置,其包括用于像聚焦像素和图像拾取像素的像素
    • US20120162466A1
    • 2012-06-28
    • US13314794
    • 2011-12-08
    • Hiroyasu KatagawaTakeshi Ogawa
    • Hiroyasu KatagawaTakeshi Ogawa
    • H04N9/73
    • H04N5/2351H04N5/2357H04N5/243
    • An image pickup apparatus 100 includes an image pickup element 101 that includes a plurality of pixels that function as both imaging pixels and focus detection pixels, which is configured so that an image pickup signal that is obtained by performing photoelectric conversion in a first direction, an evaluation value generating unit 107 that generates an evaluation value of the image pickup signal, a flicker detecting unit 108 that detects variation information of illumination intensity based on the evaluation value, a flicker correction value generating unit 109 that generates a flicker correction value for performing a flicker correction for the image pickup signal based on the variation information, a multiplier 105 that performs the flicker correction for the image pickup signal based on the flicker correction value, and a vertical correlation calculating unit 114 that performs a correlation calculation in the first direction after the flicker correction is performed.
    • 图像拾取装置100包括图像拾取元件101,其包括用作成像像素和焦点检测像素的多个像素,其被配置为使得通过沿第一方向进行光电转换而获得的图像拾取信号, 产生摄像信号的评价值的评价值生成部107,根据评价值检测照度的变化信息的闪烁检测部108,生成用于执行拍摄信号的闪烁校正值的闪烁校正值生成部109 基于变化信息的图像拾取信号的闪烁校正,基于闪烁校正值执行摄像信号的闪烁校正的乘法器105以及在第一方向之后进行相关计算的垂直相关计算单元114 执行闪烁校正。
    • 64. 发明授权
    • Image forming apparatus executing calibration and service person call
    • 图像形成装置执行校准和服务人员呼叫
    • US07907853B2
    • 2011-03-15
    • US11812344
    • 2007-06-18
    • Toshihiro TakesueTakeshi OgawaSeiji Miyahara
    • Toshihiro TakesueTakeshi OgawaSeiji Miyahara
    • G03G15/00G03G15/04
    • G03G15/55
    • An image forming apparatus includes a condition determining device that calculates a deviation amount of image data from a normal condition and determines if the image forming apparatus is in an abnormal condition. An abnormal section specifying device specifies an abnormal section in the image forming apparatus based on a condition of the image forming apparatus. An image processing device executes image processing for abnormal use in accordance with an output of the abnormal section specifying device when the image data condition determining device determines that the image forming apparatus is in an abnormal condition. A service person call output device outputs a service person call signal indicative of calling a service person to a center when the image data condition determining device determines that the image forming apparatus is in an abnormal condition.
    • 图像形成装置包括条件确定装置,其根据正常条件计算图像数据的偏差量,并确定图像形成装置是否处于异常状态。 异常部分指定装置基于图像形成装置的状况来指定图像形成装置中的异常部分。 当图像数据条件确定装置确定图像形成装置处于异常状态时,图像处理装置根据异常部分指定装置的输出执行异常使用的图像处理。 当图像数据条件确定装置确定图像形成装置处于异常状态时,服务人员呼叫输出装置将指示呼叫服务人员的服务人员呼叫信号输出到中心。
    • 66. 发明申请
    • Image processing apparatus, image processing method, and program
    • 图像处理装置,图像处理方法和程序
    • US20100129004A1
    • 2010-05-27
    • US12591143
    • 2009-11-10
    • Takeshi Ogawa
    • Takeshi Ogawa
    • G06K9/40
    • H04N1/4052H04N1/4057H04N1/52
    • An image processing apparatus, which quantizes M-level image data into N levels (M>N>2) using a multi-level error diffusion method or a multi-level average-error minimization method, includes a γ-conversion unit that performs γ-conversion on an integer part in a real number value after ideal gradation conversion that aims to obtain desired density or brightness, an area-gradation expressing unit that expresses a decimal part in the real number value by area gradation, an integerization unit that adds two values obtained through the γ-conversion and the area gradation to obtain an integerized value corresponding to the ideal gradation conversion, a correction unit that adds a peripheral error to the integerized value, and a threshold setting unit that sets an N−1-type threshold value for a value corresponding to the ideal gradation conversion, wherein the conversion to N levels is performed by using the correction value and the N−1-type threshold value.
    • 使用多级误差扩散方法或多级平均误差最小化方法将M级图像数据量化为N级(M> N> 2)的图像处理装置包括:γ转换单元,其执行γ 在旨在获得期望的浓度或亮度的理想灰度转换之后的实数值的整数部分上的转换,表示实数值乘以区域灰度的小数部分的区域灰度表示单元,将两个 通过γ转换获得的值和区域灰度以获得对应于理想灰度转换的整数值,将整数值加上周边误差的校正单元和设置N-1型阈值的阈值设置单元 对应于理想灰度转换的值的值,其中通过使用校正值和N-1型阈值来执行到N电平的转换。
    • 68. 发明申请
    • IMAGE PROCESSING APPARATUS AND COMPUTER PROGRAM PRODUCT
    • 图像处理设备和计算机程序产品
    • US20090073495A1
    • 2009-03-19
    • US12208945
    • 2008-09-11
    • Takeshi Ogawa
    • Takeshi Ogawa
    • H04N1/40
    • H04N1/4053H04N1/40087
    • An image processing apparatus quantizes multi-level image data of M gray levels into N-level image data (M>N>2) by using one of a multi-level error diffusion method to form an image by using a dot corresponding to each pixel included in the N-level image data, and includes various image processing units to obtain a correction value based on error values of neighboring pixels a target pixel, store quantized states of the neighboring pixels to set a threshold, compare the threshold with the correction value to determine the N-level image data, weight and diffuse an error generated with the N-level image data to the neighboring pixels of the target pixel. The image processing apparatus also includes an N-level processing unit to execute N-level processing and a binary processing unit configured to execute binary processing according to a dot type, and uses a weight matrix.
    • 图像处理装置通过使用多级误差扩散方法之一,通过使用与每个像素对应的点来将M个灰度级的多级图像数据量化为N级图像数据(M> N> 2),以形成图像 包括在N级图像数据中,并且包括各种图像处理单元,以基于相邻像素的目标像素的误差值获得校正值,存储相邻像素的量化状态以设置阈值,将阈值与校正值进行比较 确定N级图像数据,加权,并将使用N级图像数据产生的误差扩散到目标像素的相邻像素。 图像处理装置还包括执行N级处理的N级处理单元和被配置为根据点类型执行二进制处理的二进制处理单元,并且使用权重矩阵。
    • 69. 发明申请
    • IMAGE PROCESSOR, IMAGE PROCESSING METHOD, AND COMPUTER PROGRAM PRODUCT
    • 图像处理器,图像处理方法和计算机程序产品
    • US20080225312A1
    • 2008-09-18
    • US12041882
    • 2008-03-04
    • Takeshi Ogawa
    • Takeshi Ogawa
    • G06K15/00
    • H04N1/54
    • For (CMYK) (x,y) data, a target-pixel checking unit calculates a target-pixel integrated value a(x,y) from CMYK binary data of a target pixel and a surrounding-pixel checking unit calculates a maximum surrounding pixel integrated value n(x,y) from respective CMYK binary data of surrounding pixels that are adjacent to the target pixel. Based on the target-pixel integrated value and the maximum surrounding pixel integrated value, a comparison determining unit estimates a higher toner pile height. The comparison determining unit adds transparent image data W(x,y) to the input data CMYK(x,y) and outputs output image data CMYKW(x,y) such that the toner pile heights become even.
    • 对于(CMYK)(x,y)数据,目标像素检查单元从目标像素的CMYK二进制数据计算目标像素积分值a(x,y),并且周围像素检查单元计算最大周围像素 来自与目标像素相邻的周围像素的CMYK二进制数据的积分值n(x,y)。 基于目标像素积分值和最大周围像素积分值,比较确定单元估计较高的调色剂堆高度。 比较确定单元将透明图像数据W(x,y)添加到输入数据CMYK(x,y),并输出输出图像数据CMYKW(x,y),使得色粉堆高度变得均匀。