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    • 1. 发明申请
    • IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, IMAGE PROCESSING SYSTEM, PROGRAM, STORAGE MEDIUM, AND INTEGRATED CIRCUIT
    • 图像处理装置,图像处理方法,图像处理系统,程序,存储介质和集成电路
    • US20090022396A1
    • 2009-01-22
    • US12167607
    • 2008-07-03
    • Tatsumi WATANABEShuichi Ojima
    • Tatsumi WATANABEShuichi Ojima
    • G06K9/00G06K9/40
    • G06T5/001G06K9/4633G06T7/194G06T7/507G06T7/536G06T2207/10024G06T2207/20012
    • The present invention executes color correction that improves the feeling of depth of a 2D image with ease and by using a preexisting device.Input image data is first converted into brightness information by a brightness information calculation portion. The interest level within the image is then estimated by an interest level estimation portion based on that information. The vanishing point is then estimated by a vanishing point estimation portion. Next, a depth estimation portion estimates the degree of depth based on the distance from the vanishing point to a pixel i and the interest level of the pixel i, and calculates a depth correction gain value. A corrected image, obtained by controlling a depth correction image process based on the depth correction gain value, is converted to a predetermined image format and outputted by an output portion. Accordingly, by linking an interest level based on the brightness contrast/color contrast/blurriness amount with the depth estimation based on the vanishing point, the occurrence of abnormalities felt with images that do not properly match up with the perspective structure of the vanishing point, images that do not match the visual impression of humans, and so on can be reduced, making it possible to achieve a more natural and improved feeling of depth.
    • 本发明执行颜色校正,其容易地改善2D图像的深度感并且通过使用预先存在的设备。 输入图像数据首先通过亮度信息计算部分转换为亮度信息。 然后,基于该信息,由兴趣级别估计部分估计图像内的兴趣级别。 然后消失点由消失点估计部分估计。 接下来,深度估计部分基于从消失点到像素i的距离和像素i的兴趣级别来估计深度,并且计算深度校正增益值。 通过控制基于深度校正增益值的深度校正图像处理获得的校正图像被转换为​​预定的图像格式并由输出部分输出。 因此,通过将基于亮度对比度/颜色对比度/模糊度的兴趣度与基于消失点的深度估计相关联,发现与消失点的透视结构不正确匹配的图像, 可以减少不符合人类视觉印象的图像等,使得可以实现更自然和更好的深度感。
    • 4. 发明授权
    • Image processing device, image processing method, program, storage medium and integrated circuit
    • 图像处理装置,图像处理方法,程序,存储介质和集成电路
    • US07869649B2
    • 2011-01-11
    • US11797598
    • 2007-05-04
    • Tatsumi WatanabeShuichi Ojima
    • Tatsumi WatanabeShuichi Ojima
    • G06K9/00
    • G06T5/008G06T2207/10024G06T2207/10028H04N13/122H04N2213/006
    • It is an object to perform color correction that is simple and utilizes existing devices to achieve an increase in the feeling of depth in 2D images. Input image data are transformed into predetermined color information by a color information calculation portion 11. A correction amount control portion 10 determines a correction gain value for the color information according to depth information that has been input. A color information correction portion 12 performs color information correction based on the correction amount due to the contrast between the color information of a target pixel and representative color information of the surrounding region, and the correction gain value of the correction amount control portion. An output portion 13 converts this into a predetermined image format and outputs the result. Thus, by correcting the color information based on the contrast effect in conjunction with the depth information of the foreground and the background, for example, it is possible to easily increase the feeling of depth in a 2D image. Moreover, by controlling the color contrast effect with the depth information when performing the color correction, it becomes possible to more easily give a sense of depth that is perceived by humans.
    • 本发明的目的是进行简单的颜色校正,并利用现有的装置来实现2D图像中深度感的增加。 输入图像数据由颜色信息计算部分11转换成预定的颜色信息。校正量控制部分10根据输入的深度信息确定颜色信息的校正增益值。 颜色信息校正部分12由于目标像素的颜色信息和周围区域的代表性颜色信息之间的对比度以及校正量控制部分的校正增益值,基于校正量执行颜色信息校正。 输出部分13将其转换成预定的图像格式并输出结果。 因此,通过结合前景和背景的深度信息,通过校正基于对比度效果的颜色信息,例如,可以容易地增加2D图像中的深度感。 此外,通过在进行颜色校正时通过控制与深度信息的颜色对比度效果,可以更容易地给人感觉到的深度感。
    • 5. 发明申请
    • Image processing device, image processing method, program, storage medium and integrated circuit
    • 图像处理装置,图像处理方法,程序,存储介质和集成电路
    • US20070262985A1
    • 2007-11-15
    • US11797598
    • 2007-05-04
    • Tatsumi WatanabeShuichi Ojima
    • Tatsumi WatanabeShuichi Ojima
    • G06T17/00
    • G06T5/008G06T2207/10024G06T2207/10028H04N13/122H04N2213/006
    • It is an object to perform color correction that is simple and utilizes existing devices to achieve an increase in the feeling of depth in 2D images. Input image data are transformed into predetermined color information by a color information calculation portion 11. A correction amount control portion 10 determines a correction gain value for the color information according to depth information that has been input. A color information correction portion 12 performs color information correction based on the correction amount due to the contrast between the color information of a target pixel and representative color information of the surrounding region, and the correction gain value of the correction amount control portion. An output portion 13 converts this into a predetermined image format and outputs the result. Thus, by correcting the color information based on the contrast effect in conjunction with the depth information of the foreground and the background, for example, it is possible to easily increase the feeling of depth in a 2D image. Moreover, by controlling the color contrast effect with the depth information when performing the color correction, it becomes possible to more easily give a sense of depth that is perceived by humans.
    • 本发明的目的是进行简单的颜色校正,并利用现有的装置来实现2D图像中深度感的增加。 输入图像数据由颜色信息计算部分11转换成预定的颜色信息。校正量控制部分10根据输入的深度信息确定颜色信息的校正增益值。 颜色信息校正部分12由于目标像素的颜色信息和周围区域的代表性颜色信息之间的对比度以及校正量控制部分的校正增益值,基于校正量执行颜色信息校正。 输出部分13将其转换成预定的图像格式并输出结果。 因此,通过结合前景和背景的深度信息,通过校正基于对比度效果的颜色信息,例如,可以容易地增加2D图像中的深度感。 此外,通过在进行颜色校正时通过控制与深度信息的颜色对比度效果,可以更容易地给人感觉到的深度感。
    • 6. 发明申请
    • Image processing device, image processing method, program, storage medium and integrated circuit
    • 图像处理装置,图像处理方法,程序,存储介质和集成电路
    • US20070273686A1
    • 2007-11-29
    • US11802503
    • 2007-05-23
    • Tatsumi WatanabeShuichi Ojima
    • Tatsumi WatanabeShuichi Ojima
    • G06T15/00
    • G06T15/506G06T15/60
    • It is an object to easily, and using existing devices, perform shadow enhancement that achieves an increase in the feeling of depth of 2D video. The input image data are first converted into brightness information by a brightness information calculation portion. Then, based on that brightness information, the normal direction and the edge information in the pixel targeted for processing are estimated by a normal direction estimation portion. A corrected gradation derivation portion then performs correction processing such as the addition of shadow component on the input image based on the brightness information and the estimated normal direction and edge information to create a processed image that has a feeling of depth, and then an output portion converts this to a predetermined image format and outputs it. In this way, it is possible to easily increase the feeling of depth of a 2D image through the addition of shadow, for example, in accordance with the characteristics of the input image.
    • 这是一个容易的对象,并且使用现有的设备来执行增强2D视频深度感的阴影增强。 输入图像数据首先由亮度信息计算部分转换成亮度信息。 然后,基于该亮度信息,通过法线方向估计部来估计目标处理的像素中的法线方向和边缘信息。 校正灰度推导部分然后基于亮度信息和估计的法线方向和边缘信息执行校正处理,例如在输入图像上添加阴影分量,以创建具有深度感的处理图像,然后输出部分 将其转换为预定的图像格式并输出。 以这种方式,可以通过例如根据输入图像的特性,通过增加阴影来容易地增加2D图像的深度感。
    • 7. 发明授权
    • Image processing device, image processing method, program, storage medium and integrated circuit
    • 图像处理装置,图像处理方法,程序,存储介质和集成电路
    • US08164594B2
    • 2012-04-24
    • US11802503
    • 2007-05-23
    • Tatsumi WatanabeShuichi Ojima
    • Tatsumi WatanabeShuichi Ojima
    • G06T15/50
    • G06T15/506G06T15/60
    • It is an object to easily, and using existing devices, perform shadow enhancement that achieves an increase in the feeling of depth of 2D video. The input image data are first converted into brightness information by a brightness information calculation portion. Then, based on that brightness information, the normal direction and the edge information in the pixel targeted for processing are estimated by a normal direction estimation portion. A corrected gradation derivation portion then performs correction processing such as the addition of shadow component on the input image based on the brightness information and the estimated normal direction and edge information to create a processed image that has a feeling of depth, and then an output portion converts this to a predetermined image format and outputs it. In this way, it is possible to easily increase the feeling of depth of a 2D image through the addition of shadow, for example, in accordance with the characteristics of the input image.
    • 这是一个容易的对象,并且使用现有的设备来执行增强2D视频深度感的阴影增强。 输入图像数据首先由亮度信息计算部分转换成亮度信息。 然后,基于该亮度信息,通过法线方向估计部来估计目标处理的像素中的法线方向和边缘信息。 校正灰度推导部分然后基于亮度信息和估计的法线方向和边缘信息执行校正处理,例如在输入图像上添加阴影分量,以创建具有深度感的处理图像,然后输出部分 将其转换为预定的图像格式并输出。 以这种方式,可以通过例如根据输入图像的特性,通过增加阴影来容易地增加2D图像的深度感。
    • 10. 发明授权
    • Image process apparatus and method for contour correction
    • 用于轮廓校正的图像处理装置和方法
    • US08107012B2
    • 2012-01-31
    • US11666892
    • 2005-11-29
    • Shuichi OjimaBunpei Toji
    • Shuichi OjimaBunpei Toji
    • H04N5/68
    • H04N5/208H04N5/142
    • The image processing apparatus 100 acquires the image signal F1 and includes a steepening amount calculation unit 110, a contour shift amount calculation unit 120, an integration correction amount calculation 130 and an image generation unit 140, which generate a corrected image signal F9 in such a way that there is an intersection between waveforms, and that there are two regions with different areas bordered by the waveforms which overlap at the intersection point, the waveforms expressing changes in each value in image spaces displayed by the image signal and the corrected image signal respectively, when a waveform which expresses changes in the differential values of the image signal relative to the image spaces is symmetrical in a contour region of the image shown by the image signal.
    • 图像处理装置100获取图像信号F1,并且包括在这样的图像信号F1中生成校正图像信号F9的倾斜量计算单元110,轮廓偏移量计算单元120,积分校正量计算130和图像生成单元140 在波形之间存在交叉的方式,并且存在两个区域,其中不同的区域由在交点处重叠的波形相邻,分别表示由图像信号显示的图像空间中的每个值的变化和校正的图像信号 当图像信号相对于图像空间的差分值的变化的波形在由图像信号所示的图像的轮廓区域中对称时。