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    • 1. 发明申请
    • Optical apparatus as well as imaging apparatus and system incorporating the same
    • 光学装置以及包含其的成像装置和系统
    • US20120236171A1
    • 2012-09-20
    • US13065253
    • 2011-03-16
    • Ayako AsakuraAkikazu Yachi
    • Ayako AsakuraAkikazu Yachi
    • H04N5/225H04N5/228
    • H04N5/3572G02B3/10H04N5/217H04N2005/2255
    • The invention provides an imaging apparatus and an imaging system, each one comprising an optical system having characteristics matching with image restoration processing, thereby achieving effective image restoration processing. To this end, the imaging apparatus or system comprises an imaging device 12, an optical system 11 for forming a subject image on the imaging device 12, and an image processing means 14 for implementing image processing for an image being viewed, the image produced out of the image device 12. The imaging apparatus or system is characterized in that the optical system 11 has a substantially constant MTF at a position where the imaging device 12 is located and in the predetermined distances before and after that position.
    • 本发明提供了一种成像设备和成像系统,每个成像设备和成像系统包括具有与图像恢复处理相匹配的特征的光学系统,从而实现有效的图像恢复处理。 为此,成像装置或系统包括成像装置12,用于在成像装置12上形成被摄体图像的光学系统11以及用于实现正在观看的图像的图像处理的图像处理装置14,产生的图像 成像装置或系统的特征在于,光学系统11在成像装置12所在的位置处具有基本恒定的MTF,并且在该位置之前和之后具有预定距离。
    • 2. 发明授权
    • Optical apparatus, imaging apparatus and imaging system having a substantially constant MTF or MTF shape
    • 具有基本上恒定的MTF或MTF形状的光学装置,成像装置和成像系统
    • US08810674B2
    • 2014-08-19
    • US13065253
    • 2011-03-16
    • Ayako AsakuraAkikazu Yachi
    • Ayako AsakuraAkikazu Yachi
    • H04N5/228
    • H04N5/3572G02B3/10H04N5/217H04N2005/2255
    • The invention provides an imaging apparatus and an imaging system, each one comprising an optical system having characteristics matching with image restoration processing, thereby achieving effective image restoration processing. To this end, the imaging apparatus or system comprises an imaging device 12, an optical system 11 for forming a subject image on the imaging device 12, and an image processing means 14 for implementing image processing for an image being viewed, the image produced out of the image device 12. The imaging apparatus or system is characterized in that the optical system 11 has a substantially constant MTF at a position where the imaging device 12 is located and in the predetermined distances before and after that position.
    • 本发明提供了一种成像设备和成像系统,每个成像设备和成像系统包括具有与图像恢复处理相匹配的特征的光学系统,从而实现有效的图像恢复处理。 为此,成像装置或系统包括成像装置12,用于在成像装置12上形成被摄体图像的光学系统11以及用于实现正在观看的图像的图像处理的图像处理装置14,产生的图像 成像装置或系统的特征在于,光学系统11在成像装置12所在的位置处具有基本恒定的MTF,并且在该位置之前和之后具有预定距离。
    • 8. 发明申请
    • FOCUS DETECTION APPARATUS
    • 聚焦检测装置
    • US20080297648A1
    • 2008-12-04
    • US12120513
    • 2008-05-14
    • Satoko FurukiAkikazu YachiToru MatsuzawaNobuyuki Watanabe
    • Satoko FurukiAkikazu YachiToru MatsuzawaNobuyuki Watanabe
    • H04N5/225
    • G03B13/36G02B7/38G03B3/02G03B3/04G03B2217/002H04N5/23212
    • A blurring parameter operating section calculates a blurring parameter corresponding to a distance from an optical system to a subject, based on two luminance information items which have different blurring degrees and are acquired by changing an arrangement setting of the optical system. A distance estimating section estimates distance information corresponding to the distance from the optical system to the subject, based on the blurring parameter. A focus detection section acquires luminance information after changing arrangement setting of the optical system based on the distance information, acquires luminance information items having different blurring degrees by further changing arrangement setting of the optical system, calculates an evaluation value indicating a degree of focus from each of the luminance information items having the different blurring degrees, and determines the focal position based on the evaluation value.
    • 模糊参数操作部分基于具有不同模糊度并通过改变光学系​​统的布置设置而获取的两个亮度信息项来计算对应于从光学系统到被摄体的距离的模糊参数。 距离估计部基于模糊参数来估计与从光学系统到被摄体的距离对应的距离信息。 焦点检测部分基于距离信息来改变光学系​​统的布置设置之后获取亮度信息,通过进一步改变光学系​​统的布置设置来获取具有不同模糊度的亮度信息项,从每个图像计算指示聚焦度的评估值 具有不同模糊度的亮度信息项,并且基于评估值来确定焦点位置。