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    • 1. 发明授权
    • Image processing apparatus and method
    • 图像处理装置及方法
    • US09361667B2
    • 2016-06-07
    • US13818027
    • 2011-08-26
    • Kazuki AisakaSeiji KobayashiTakuya KishimotoTomoyuki Ootsuki
    • Kazuki AisakaSeiji KobayashiTakuya KishimotoTomoyuki Ootsuki
    • G06T5/00A61B3/12G06T3/40A61B3/15G06T5/50G06T7/00
    • A61B3/0025A61B3/12A61B3/152G06T3/4053G06T5/001G06T5/002G06T5/50G06T2207/20208H04N1/387H04N2201/0414
    • The present technology relates to an image processing apparatus and an image processing method, and particularly to an image processing apparatus and an image processing method capable of suppressing an increase in a load on a subject and obtaining a captured image of the subject with higher image quality.An imaging unit reduces a light amount and performs a plurality of imagings of the fundus of the eye so as to generate a plurality of fundus images. A biological information alignment processing unit aligns the fundus images by using biological information of a subject. A super-resolution processing unit superimposes an aligned input image on a previous super-resolution result image so as to generate a new super-resolution result image. The super-resolution processing unit stores or outputs the super-resolution result image in a storage unit or from an output unit, and supplies the super-resolution result image to a super-resolution result image buffer so as to be stored. The present technology may be applied to, for example, an image processing apparatus.
    • 本技术涉及一种图像处理装置和图像处理方法,特别涉及一种能够抑制对对象的负担增加并获得具有较高图像质量的被摄体的拍摄图像的图像处理装置和图像处理方法 。 成像单元减少光量并执行眼睛的眼底的多个图像,以产生多个眼底图像。 生物信息对齐处理单元通过使用对象的生物信息对准眼底图像。 超分辨率处理单元将对准的输入图像叠加在先前的超分辨率结果图像上,以生成新的超分辨率结果图像。 超分辨率处理单元将超分辨率结果图像存储或输出到存储单元或输出单元中,并将超分辨率结果图像提供给超分辨率结果图像缓冲器以便被存储。 本技术可以应用于例如图像处理装置。
    • 2. 发明申请
    • IMAGE PROCESSING DEVICE AND METHOD, RECORDING MEDIUM AND PROGRAM
    • 图像处理设备和方法,记录介质和程序
    • US20130108129A1
    • 2013-05-02
    • US13594382
    • 2012-08-24
    • Kazuki AisakaTomoyuki OotsukiSeiji Kobayashi
    • Kazuki AisakaTomoyuki OotsukiSeiji Kobayashi
    • G06K9/48
    • G06K9/48A61B3/0025A61B3/12A61B3/14G06K9/00208G06T7/20G06T7/207G06T7/223G06T7/285G06T15/00G06T2207/30041
    • There is provided an image processing device including a motion vector detection portion that performs comparison of a substantially spherical photographic subject such that, among a plurality of captured images including the photographic subject, an image as a processing target and another image as a comparison target are compared using each of the plurality of captured images as the processing target, and which detects a motion vector of a whole three-dimensional spherical model with respect to the processing target, a motion compensation portion that performs motion compensation on the processing target, based on the motion vector of each of the plurality of captured images that is detected by the motion vector detection portion, and a synthesis portion that synthesizes each of the captured images that are obtained as a result of the motion compensation performed by the motion compensation portion.
    • 提供了一种图像处理装置,其包括运动矢量检测部分,其执行基本上球面的拍摄对象的比较,使得在包括拍摄对象的多个拍摄图像,作为处理对象的图像和作为比较对象的另一图像之间 比较使用多个拍摄图像中的每一个作为处理对象,并且检测相对于处理对象的整个三维球面模型的运动矢量;基于对所述处理对象进行运动补偿的运动补偿部,基于 由运动矢量检测部分检测到的多个拍摄图像中的每一个的运动矢量以及合成部分,其合成作为由运动补偿部分执行的运动补偿的结果而获得的每个拍摄图像。
    • 3. 发明授权
    • Image processing apparatus and method, and program
    • 图像处理装置及方法及程序
    • US08300969B2
    • 2012-10-30
    • US12336477
    • 2008-12-16
    • Masatoshi YokokawaJun MurayamaKazuki Aisaka
    • Masatoshi YokokawaJun MurayamaKazuki Aisaka
    • G06K9/40
    • G06K9/4609G06T7/0002G06T7/13G06T2207/20016G06T2207/20021
    • An edge map creation unit detects an edge intensity of an input image in units of three types of blocks having different sizes. An operation parameter adjustment unit sets initial values of an edge reference value and an extraction reference value on the basis of a dynamic range which is a difference between the maximum and minimum values of the edge intensity. An edge point extraction unit extracts an edge point from the input image on the basis of the edge reference value. Until an extraction amount determination unit determines that the edge point extraction amount is appropriate on the basis of the extraction reference value, the operation parameter adjustment unit repeatedly performs a processing of adjusting the edge reference value, and the edge point extraction unit repeatedly performs a processing of extracting the edge point from the input image on the basis of the adjusted edge reference value.
    • 边缘图创建单元以具有不同大小的三种类型的块为单位来检测输入图像的边缘强度。 操作参数调整单元基于作为边缘强度的最大值和最小值之间的差的动态范围来设定边缘基准值和提取基准值的初始值。 边缘点提取单元基于边缘参考值从输入图像中提取边缘点。 直到提取量确定单元基于提取参考值确定边缘点提取量是适当的,操作参数调整单元重复执行调整边缘参考值的处理,并且边缘点提取单元重复执行处理 基于经调整的边缘参考值从输入图像中提取边缘点。
    • 4. 发明申请
    • Image Processing Apparatus and Method, and Program
    • 图像处理装置及方法及程序
    • US20120070102A1
    • 2012-03-22
    • US13056900
    • 2010-05-31
    • Masatoshi YokokawaKazuki AisakaJun Murayama
    • Masatoshi YokokawaKazuki AisakaJun Murayama
    • G06K9/36
    • H04N17/002G06T7/0002G06T2207/10024G06T2207/20016G06T2207/20021G06T2207/30168G06T2207/30201H04N5/23222
    • The present invention relates to an image processing apparatus and method, and a program that are capable of more appropriately evaluating the image-capture state of an image.A blur degree score calculation unit 23 through to a chroma score calculation unit 27 extract a feature quantity of a pre-specified feature from an input image, and calculate a feature-by-feature score indicating an evaluation for the input image on the basis of the feature. For example, the luminance score calculation unit 24 extracts, as a feature quantity, a luminance value from the input image, and calculates a luminance score indicating an evaluation based on the distribution of the luminance values in the subject portion of the input image. The overall score calculation unit 28 calculates an overall score indicating the evaluation of the image-capture state of the input image from each feature-by-feature score. As described above, when each feature-by-feature score is to be calculated, by extracting each feature quantity and obtaining a score from the area of the input image suitable for the feature, it is possible to more appropriately evaluate the input image. The present invention can be applied to an image processing apparatus.
    • 本发明涉及能够更适当地评价图像的图像拍摄状态的图像处理装置和方法以及程序。 模糊度分数计算单元23至色度分数计算单元27从输入图像中提取预定特征的特征量,并且基于以下方式计算表示对输入图像的评估的特征分数 的功能。 例如,亮度分数计算单元24从输入图像中提取亮度值作为特征量,并且基于输入图像的对象部分中的亮度值的分布来计算指示评估的亮度分数。 总分计算单元28从每个特征点分数计算指示输入图像的图像捕获状态的评估的总分。 如上所述,当要计算每个要素特征得分时,通过从适合于特征的输入图像的区域中提取每个特征量并获得分数,可以更适当地评估输入图像。 本发明可以应用于图像处理装置。
    • 5. 发明申请
    • IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM
    • 图像处理设备,图像处理方法和程序
    • US20110206295A1
    • 2011-08-25
    • US13022145
    • 2011-02-07
    • Nodoka TOKUNAGAKazuki AisakaMasatoshi YokokawaJun Murayama
    • Nodoka TOKUNAGAKazuki AisakaMasatoshi YokokawaJun Murayama
    • G06K9/32
    • H04N1/3875
    • An image processing apparatus includes: a subject region detection unit detecting regions of subjects included in an input image; a cropped region setting unit setting a region including all of the regions of the detected subjects as a cropped region; an expansion region addition unit adding an expansion region to expand an end of the cropped region only by a predetermined width; a cutting unit cutting a cut image formed from a cut region including the cropped region and the expansion region from the input image; a subject adaptation size change unit changing a size of an image formed from the cut region by deleting a region where an influence on the subjects is small in the cut image; and an entire image size changing unit changing the size of the entire image changed in size by the subject adaptation size change unit at a predetermined ratio.
    • 一种图像处理装置,包括:对象区域检测单元,检测输入图像中包含的被摄体的区域; 裁剪区域设定单元,将包括检测到的被摄体的全部区域的区域设定为裁剪区域; 扩展区域添加单元,其添加扩展区域,以使裁剪区域的端部仅扩展预定宽度; 切割单元,从输入图像切割由包括裁剪区域和扩展区域的切割区域形成的切割图像; 主题适应尺寸改变单元,通过删除在切割图像中对被摄体的影响小的区域来改变由切割区域形成的图像的尺寸; 以及整个图像尺寸改变单元,以预定比例改变由主体适配尺寸改变单元改变尺寸的整个图像的尺寸。
    • 8. 发明授权
    • Image processing apparatus and method, and program
    • 图像处理装置及方法及程序
    • US08611615B2
    • 2013-12-17
    • US13056900
    • 2010-05-31
    • Masatoshi YokokawaKazuki AisakaJun Murayama
    • Masatoshi YokokawaKazuki AisakaJun Murayama
    • G06K9/00
    • H04N17/002G06T7/0002G06T2207/10024G06T2207/20016G06T2207/20021G06T2207/30168G06T2207/30201H04N5/23222
    • The present invention relates to an image processing apparatus and method, and a program that are capable of more appropriately evaluating the image-capture state of an image.A blur degree score calculation unit 23 through to a chroma score calculation unit 27 extract a feature quantity of a pre-specified feature from an input image, and calculate a feature-by-feature score indicating an evaluation for the input image on the basis of the feature. For example, the luminance score calculation unit 24 extracts, as a feature quantity, a luminance value from the input image, and calculates a luminance score indicating an evaluation based on the distribution of the luminance values in the subject portion of the input image. The overall score calculation unit 28 calculates an overall score indicating the evaluation of the image-capture state of the input image from each feature-by-feature score. As described above, when each feature-by-feature score is to be calculated, by extracting each feature quantity and obtaining a score from the area of the input image suitable for the feature, it is possible to more appropriately evaluate the input image. The present invention can be applied to an image processing apparatus.
    • 本发明涉及能够更适当地评价图像的图像拍摄状态的图像处理装置和方法以及程序。 模糊度分数计算单元23至色度分数计算单元27从输入图像中提取预定特征的特征量,并且基于以下方式计算表示对输入图像的评估的特征分数 的功能。 例如,亮度分数计算单元24从输入图像中提取亮度值作为特征量,并且基于输入图像的对象部分中的亮度值的分布来计算指示评估的亮度分数。 总分计算单元28从每个特征点分数计算指示输入图像的图像捕获状态的评估的总分。 如上所述,当要计算每个要素特征得分时,通过从适合于特征的输入图像的区域中提取每个特征量并获得分数,可以更适当地评估输入图像。 本发明可以应用于图像处理装置。
    • 9. 发明授权
    • Image processing apparatus and method, and program
    • 图像处理装置及方法及程序
    • US08577137B2
    • 2013-11-05
    • US12999771
    • 2010-04-30
    • Kazuki AisakaMasaya KinoshitaTakashi KameyaJun MurayamaMasatoshi Yokokawa
    • Kazuki AisakaMasaya KinoshitaTakashi KameyaJun MurayamaMasatoshi Yokokawa
    • G06K9/00
    • G06K9/6289G06K9/00234G06K9/00261G06T7/11G06T2207/10024G06T2207/20016G06T2207/30201
    • The present invention relates to an image processing apparatus and method, and a program that are capable of more easily identifying an area of a subject in an image.A luminance information extraction unit 21 through to a motion information extraction unit 25 extract predetermined information from an input image and create an information map indicating feature quantities of features possessed by an area of a subject of the input image.Furthermore, the luminance information extraction unit 21 through to the motion information extraction unit 25 subtract an average value of the pixel values of the pixels of the entire information map from the pixel value of each pixel of the created information map so as to normalize the information map. As a result, the information map can be normalized, and noise can be removed with a simple process when compared to a case in which the information map is normalized using a DOG filter. A subject map creation unit 26 linearly combines each information map, and creates a subject map indicating the likelihood of an area being a subject in each area of an input image. The present invention can be applied to an image processing apparatus.
    • 本发明涉及能够更容易地识别图像中的被摄体的区域的图像处理装置和方法以及程序。 亮度信息提取单元21至运动信息提取单元25从输入图像中提取预定信息,并创建指示输入图像的被摄体区域拥有的特征的特征量的信息映射。 此外,亮度信息提取单元21至运动信息提取单元25从创建的信息图的每个像素的像素值中减去整个信息图的像素的像素值的平均值,以便将信息标准化 地图。 结果,与使用DOG滤波器对信息图进行归一化的情况相比,信息图可以被归一化,并且可以用简单的过程去除噪声。 被摄体图生成部26对各信息映像进行线性组合,并生成表示输入图像的各区域中的被摄体的区域的可能性的被摄体图。 本发明可以应用于图像处理装置。
    • 10. 发明申请
    • IMAGE PROCESSING APPARATUS AND METHOD, AND PROGRAM
    • 图像处理设备和方法,程序
    • US20120051650A1
    • 2012-03-01
    • US13002958
    • 2010-05-06
    • Kazuki AisakaMasaya KinoshitaTakashi KameyaJun MurayamaMasatoshi Yokokawa
    • Kazuki AisakaMasaya KinoshitaTakashi KameyaJun MurayamaMasatoshi Yokokawa
    • G06K9/46
    • H04N5/232G06K9/00234G06T7/11G06T2207/30201
    • The present invention relates to an image processing apparatus and method, and a program that make it possible to more accurately specify a photographic subject in an image.A photographic subject map generating unit 21 generates, based on an input image, a photographic subject map indicating the likeliness of each region of the input image being a region of a photographic subject. A gradient map generating unit 22 generates a gradient map indicating the degree of change of the likeliness of the photographic subject map being a photographic subject. A threshold processing unit 23 and a threshold processing unit 24 binarize the gradient map using a high threshold THh and a low threshold TH1, and obtain threshold maps. A composite map generating unit 25 generates a composite map indicating the likeliness of each region of the input image being a photographic subject by regarding that, among regions specified as being likely to be a photographic subject based on the threshold map of the low threshold TH1, a region including a region specified as being likely to be a photographic subject based on the threshold map of the high threshold THh is a region of a photographic subject. The present invention is applicable to an image processing apparatus.
    • 本发明涉及一种图像处理装置和方法以及使得能够更准确地指定图像中的被摄体的程序。 摄影对象图生成部21基于输入图像生成表示作为拍摄对象的区域的输入图像的各区域的可能性的拍摄对象图。 梯度图生成单元22生成表示拍摄对象的拍摄对象地图的可能性的变化程度的梯度图。 阈值处理单元23和阈值处理单元24使用高阈值THh和低阈值TH1对梯度图进行二值化,并获得阈值图。 复合地图生成单元25通过关于基于低阈值TH1的阈值映射指定为可拍摄对象的区域,生成表示作为拍摄对象的输入图像的各区域的可能性的复合图, 基于高阈值THh的阈值图,指定为可能是拍摄对象的区域的区域是拍摄对象的区域。 本发明可应用于图像处理装置。