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1.发明授权Distance estimation apparatus, distance estimation method, storage medium storing program, integrated circuit, and camera 有权距离估计装置,距离估计方法,存储介质存储程序,集成电路和摄像机公开(公告)号:US08159598B2
公开(公告)日:2012-04-17
申请号:US12542886
申请日:2009-08-18
申请人: Tatsumi Watanabe , Yasuhiro Kuwahara , Takeshi Ito , Bumpei Toji , Daisuke Sato , Shinya Kiuchi , Yoshiaki Owaki
发明人: Tatsumi Watanabe , Yasuhiro Kuwahara , Takeshi Ito , Bumpei Toji , Daisuke Sato , Shinya Kiuchi , Yoshiaki Owaki
IPC分类号: H04N5/232
CPC分类号: G01S17/89 , G01S17/36 , G06T7/564 , G06T2207/10028 , H04N2213/006
摘要: Attempts to achieve a higher resolution and a higher frame rate of a distance image when a distance to an object within a target space is estimated using the TOF method would cause CCD saturation due to shot noise or environment light, and lower distance precision. A distance estimation apparatus illuminates an object with illumination light for distance estimation emitted from a light source that can emit light (electromagnetic wave) having a predetermined illumination frequency, receives reflected light of the illumination light, obtains information about the distance from the apparatus to the object, generates distance image data based on the distance information, extracts edge information of a color image formed using a visible light component obtained in synchronization with the reflected light, and corrects distance information of a target part of the distance image using distance information of a neighboring part of the target part based on the edge information.
摘要翻译: 当使用TOF方法估计到目标空间内的对象的距离时,尝试实现更高分辨率和更高的距离图像的帧速率将导致由于镜头噪声或环境光而导致的CCD饱和度和较低的距离精度。 距离估计装置利用用于从能够发射具有预定照明频率的光(电磁波)发射的距离估计的照明光照射物体,接收照明光的反射光,获得关于从该装置到该装置的距离的信息 对象,基于距离信息生成距离图像数据,提取使用与反射光同步地获得的可见光分量形成的彩色图像的边缘信息,并且使用距离图像的距离信息来校正距离图像的距离信息 基于边缘信息的目标部分的相邻部分。
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2.发明授权Image processing device, image processing method, program, recording medium and integrated circuit 有权图像处理装置,图像处理方法,程序,记录介质和集成电路公开(公告)号:US08063994B2
公开(公告)日:2011-11-22
申请号:US12300713
申请日:2007-04-16
申请人: Yoshiaki Owaki , Yasuhiro Kuwahara
发明人: Yoshiaki Owaki , Yasuhiro Kuwahara
CPC分类号: G09G3/2066 , G09G3/2803 , G09G2320/0247 , G09G2320/0285 , G09G2360/02 , Y10S348/91
摘要: Flicker occurs in a flicker-noticeable area consisting of pixels with no pixel value variations. An image processing device (100) includes a variance calculation unit (101) that obtains a variance of an area consisting of a target pixel and neighboring pixels included in a first frame, and changes, according to the variance, the rate at which an error generated at the target pixel through tone level restriction is distributed within the frame and between frames. The image processing device (100) includes an error diffusion unit (113) that distributes the error generated at the target pixel to the neighboring pixels included in the first frame based on an intra-frame error diffusion rate and an intra-frame error distribution weight, and distributes the error generated at the target pixel to a target pixel and neighboring pixels included in the second frame based on an inter-frame error diffusion rate and an inter-frame error distribution weight.
摘要翻译: 闪烁发生在由没有像素值变化的像素组成的闪烁显着区域中。 一种图像处理装置(100)包括:方差计算单元(101),其获得由包括在第一帧中的目标像素和相邻像素组成的区域的方差,并根据差异改变错误率 通过音调电平限制在目标像素处生成的帧被分配在帧内和帧之间。 图像处理装置(100)包括误差扩散单元(113),该误差扩散单元(113)基于帧内误差扩散率和帧内误差分布权重将在目标像素处生成的误差分布到包括在第一帧中的相邻像素 并且基于帧间误差扩散率和帧间误差分布权重将在目标像素处产生的误差分布到包括在第二帧中的目标像素和相邻像素。
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3.发明申请DISTANCE MEASURING DEVICE, DISTANCE MEASURING METHOD, PROGRAM, AND INTEGRATED CIRCUIT 有权距离测量装置,距离测量方法,程序和集成电路公开(公告)号:US20110051118A1
公开(公告)日:2011-03-03
申请号:US12990677
申请日:2010-02-18
申请人: Daisuke Sato , Tatsumi Watanabe , Bunpei Toji , Yasuhiro Kuwahara , Takeshi Ito , Shinya Kiuchi , Yoshiaki Owaki
发明人: Daisuke Sato , Tatsumi Watanabe , Bunpei Toji , Yasuhiro Kuwahara , Takeshi Ito , Shinya Kiuchi , Yoshiaki Owaki
CPC分类号: G01S17/32 , G01S7/491 , G01S7/4913 , G01S7/499
摘要: A distance measuring device using a multiple wave enables measurement of long distances with a high resolution and with a high precision by significantly reducing the circuit scale required for demultiplexing circuitry. A distance measuring device (1) includes an illumination unit (1) that illuminates using multiple modulated light having a plurality of frequencies satisfying a relationship in which one frequency is an even multiple of another frequency, a light receiving unit (20) that accumulates the charge of reflected light of the multiple modulated light into a plurality of accumulation units while switching an accumulation unit into which the charge is accumulated at a predetermined timing, and a distance calculation unit (30) that calculates a distance based on the charge.
摘要翻译: 使用多波的距离测量装置能够通过显着地减少解复用电路所需的电路规模,从而以高分辨率和高精度测量长距离。 距离测量装置(1)包括:照明单元(1),其使用具有多个频率的多个调制光进行照明,该多个调制光满足一个频率为另一个频率的偶数倍的关系;光接收单元(20) 在预定定时将多个调制光的反射光充电到多个累加单元中,同时切换在其中累积电荷的累积单元;以及距离计算单元,其基于电荷计算距离。
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4.发明授权Distance measuring device, distance measuring method, program, and integrated circuit 有权距离测量装置,距离测量方法,程序和集成电路公开(公告)号:US08531651B2
公开(公告)日:2013-09-10
申请号:US12990677
申请日:2010-02-18
申请人: Daisuke Sato , Tatsumi Watanabe , Bunpei Toji , Yasuhiro Kuwahara , Takeshi Ito , Shinya Kiuchi , Yoshiaki Owaki
发明人: Daisuke Sato , Tatsumi Watanabe , Bunpei Toji , Yasuhiro Kuwahara , Takeshi Ito , Shinya Kiuchi , Yoshiaki Owaki
IPC分类号: G01C3/08
CPC分类号: G01S17/32 , G01S7/491 , G01S7/4913 , G01S7/499
摘要: A distance measuring device using a multiple wave enables measurement of long distances with a high resolution and with a high precision by significantly reducing the circuit scale required for demultiplexing circuitry. A distance measuring device (1) includes an illumination unit (1) that illuminates using multiple modulated light having a plurality of frequencies satisfying a relationship in which one frequency is an even multiple of another frequency, a light receiving unit (20) that accumulates the charge of reflected light of the multiple modulated light into a plurality of accumulation units while switching an accumulation unit into which the charge is accumulated at a predetermined timing, and a distance calculation unit (30) that calculates a distance based on the charge.
摘要翻译: 使用多波的距离测量装置能够通过显着地减少解复用电路所需的电路规模,从而以高分辨率和高精度测量长距离。 距离测量装置(1)包括:照明单元(1),其使用具有多个频率的多个调制光进行照明,该多个调制光满足一个频率为另一个频率的偶数倍的关系;光接收单元(20) 在预定定时将多个调制光的反射光充电到多个累加单元中,同时切换在其中累积电荷的累积单元;以及距离计算单元,其基于电荷计算距离。
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5.发明申请DISTANCE ESTIMATING DEVICE, DISTANCE ESTIMATING METHOD, PROGRAM, INTEGRATED CIRCUIT, AND CAMERA 审中-公开距离估计设备,距离估计方法,程序,集成电路和摄像机公开(公告)号:US20110063437A1
公开(公告)日:2011-03-17
申请号:US12922544
申请日:2009-07-29
申请人: Tatsumi Watanabe , Yasuhiro Kuwahara , Takeshi Ito , Bumpei Toji , Daisuke Sato , Shinya Kiuchi , Yoshiaki Owaki
发明人: Tatsumi Watanabe , Yasuhiro Kuwahara , Takeshi Ito , Bumpei Toji , Daisuke Sato , Shinya Kiuchi , Yoshiaki Owaki
IPC分类号: H04N7/18
CPC分类号: G01S17/89 , G01S7/4802 , G01S17/36
摘要: Conventionally, there has been a danger that CCD saturation may occur because of the influence of the shot noise and the environment light if a higher resolution of a distance image showing the distance to an object present in a target space and a higher frame rate are achieved when the distance image is estimated by the TOF method, and the distance accuracy may degrade. An emission frequency selecting unit (7) receives light (S2) reflected from the object when a light source does not emit light and selects illumination light (S1) having an emission frequency insusceptible to the environment light according to the frequency analysis of the reflected light (S2). An image creating unit (6) selects a light source emitting the illumination light having the optimum emission frequency from among prepared light sources (9A to 9N), receives reflected light of the illumination light from the selected light source, and creates the distance image showing the distance to the object. The environment light can be mitigated during light reception, and the noise influence on the distance accuracy can be mitigated when a light-receiving element unit (2) exhibiting higher resolution is used.
摘要翻译: 通常,存在如下情况:由于拍摄噪声和环境光的影响可能发生CCD饱和,如果示出与目标空间中存在的物体的距离更高的距离图像的分辨率和更高的帧速率 当通过TOF方法估计距离图像时,距离精度可能降低。 当光源不发光时,发射频率选择单元(7)接收从物体反射的光(S2),并根据反射光的频率分析选择具有对环境光不敏感的发射频率的照明光 (S2)。 图像创建单元(6)从准备的光源(9A至9N)中选择发射具有最佳发射频率的照明光的光源,接收来自所选择的光源的照明光的反射光,并创建显示 到物体的距离。 可以在光接收期间减轻环境光,并且当使用具有更高分辨率的光接收元件单元(2)时,可以减轻对距离精度的影响。
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6.发明申请DISTANCE ESTIMATION APPARATUS, DISTANCE ESTIMATION METHOD, STORAGE MEDIUM STORING PROGRAM, INTEGRATED CIRCUIT, AND CAMERA 有权距离估计装置,距离估计方法,存储媒体存储程序,集成电路和摄像机公开(公告)号:US20100046802A1
公开(公告)日:2010-02-25
申请号:US12542886
申请日:2009-08-18
申请人: Tatsumi Watanabe , Yasuhiro Kuwahara , Takeshi Ito , Bumpei Toji , Daisuke Sato , Shinya Kiuchi , Yoshiaki Owaki
发明人: Tatsumi Watanabe , Yasuhiro Kuwahara , Takeshi Ito , Bumpei Toji , Daisuke Sato , Shinya Kiuchi , Yoshiaki Owaki
CPC分类号: G01S17/89 , G01S17/36 , G06T7/564 , G06T2207/10028 , H04N2213/006
摘要: Attempts to achieve a higher resolution and a higher frame rate of a distance image when a distance to an object within a target space is estimated using the TOF method would cause CCD saturation due to shot noise or environment light, and lower distance precision. A distance estimation apparatus illuminates an object with illumination light for distance estimation emitted from a light source that can emit light (electromagnetic wave) having a predetermined illumination frequency, receives reflected light of the illumination light, obtains information about the distance from the apparatus to the object, generates distance image data based on the distance information, extracts edge information of a color image formed using a visible light component obtained in synchronization with the reflected light, and corrects distance information of a target part of the distance image using distance information of a neighboring part of the target part based on the edge information.
摘要翻译: 当使用TOF方法估计到目标空间内的对象的距离时,尝试实现更高分辨率和更高的距离图像的帧速率将导致由于镜头噪声或环境光而导致的CCD饱和度和较低的距离精度。 距离估计装置利用用于从能够发射具有预定照明频率的光(电磁波)发射的距离估计的照明光照射物体,接收照明光的反射光,获得关于从该装置到该装置的距离的信息 对象,基于距离信息生成距离图像数据,提取使用与反射光同步地获得的可见光分量形成的彩色图像的边缘信息,并且使用距离图像的距离信息来校正距离图像的距离信息 基于边缘信息的目标部分的相邻部分。
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7.发明申请IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, PROGRAM, RECORDING MEDIUM AND INTEGRATED CIRCUIT 有权图像处理装置,图像处理方法,程序,记录介质和集成电路公开(公告)号:US20090128693A1
公开(公告)日:2009-05-21
申请号:US12300713
申请日:2007-04-16
申请人: Yoshiaki Owaki , Yasuhiro Kuwahara
发明人: Yoshiaki Owaki , Yasuhiro Kuwahara
IPC分类号: H04N7/01
CPC分类号: G09G3/2066 , G09G3/2803 , G09G2320/0247 , G09G2320/0285 , G09G2360/02 , Y10S348/91
摘要: Flicker occurs in a flicker-noticeable area consisting of pixels with no pixel value variations. An image processing device (100) includes a variance calculation unit (101) that obtains a variance of an area consisting of a target pixel and neighboring pixels included in a first frame, and changes, according to the variance, the rate at which an error generated at the target pixel through tone level restriction is distributed within the frame and between frames. The image processing device (100) includes an error diffusion unit (113) that distributes the error generated at the target pixel to the neighboring pixels included in the first frame based on an intra-frame error diffusion rate and an intra-frame error distribution weight, and distributes the error generated at the target pixel to a target pixel and neighboring pixels included in the second frame based on an inter-frame error diffusion rate and an inter-frame error distribution weight.
摘要翻译: 闪烁发生在由没有像素值变化的像素组成的闪烁显着区域中。 一种图像处理装置(100)包括:方差计算单元(101),其获得由包括在第一帧中的目标像素和相邻像素组成的区域的方差,并根据差异改变错误率 通过音调电平限制在目标像素处生成的帧被分配在帧内和帧之间。 图像处理装置(100)包括误差扩散单元(113),该误差扩散单元(113)基于帧内误差扩散率和帧内误差分布权重将在目标像素处生成的误差分布到包括在第一帧中的相邻像素 并且基于帧间误差扩散率和帧间误差分布权重将在目标像素处产生的误差分布到包括在第二帧中的目标像素和相邻像素。
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8.发明授权Image processing apparatus and image processing method for adaptively processing an image using an enhanced image and edge data 有权用于使用增强图像和边缘数据自适应地处理图像的图像处理装置和图像处理方法公开(公告)号:US08098953B2
公开(公告)日:2012-01-17
申请号:US12827264
申请日:2010-06-30
申请人: Tatsumi Watanabe , Akio Kojima , Yasuhiro Kuwahara , Yusuke Monobe , Toshiharu Kurosawa , Hirotaka Oku
发明人: Tatsumi Watanabe , Akio Kojima , Yasuhiro Kuwahara , Yusuke Monobe , Toshiharu Kurosawa , Hirotaka Oku
IPC分类号: G06K9/40 , G06K9/00 , H04N1/40 , G03F3/08 , G09G1/14 , G09G3/28 , G09G3/30 , G09G5/00 , G09G5/02 , G09G5/10
CPC分类号: H04N1/6027 , G06T5/008 , G06T5/20 , H04N5/142 , H04N5/20
摘要: An image processing apparatus for automatically improving the contrast of an input image that is obtained from a digital camera or the like, and obtaining a sharper and clearing image. A contrast improvement unit performs a contrast improvement process on the input image by comparing an object pixel in the input image with pixels in the surrounding area. An image combination unit combines the enhanced image obtained by the contrast improvement process with the input image. The combined image is then output to a desired device such as a printer by an image output unit.
摘要翻译: 一种图像处理装置,用于自动改善从数字照相机等获得的输入图像的对比度,并获得更清晰和清晰的图像。 对比度改善单元通过将输入图像中的对象像素与周边区域中的像素进行比较来对输入图像执行对比度改善处理。 图像组合单元将通过对比度改进处理获得的增强图像与输入图像相结合。 然后,组合的图像由图像输出单元输出到期望的装置,例如打印机。
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公开(公告)号:US07773158B2
公开(公告)日:2010-08-10
申请号:US11544736
申请日:2006-10-10
CPC分类号: G09G5/04 , G09G5/06 , G09G2320/0242 , G09G2320/0285 , G09G2320/066 , G09G2320/0673 , H04N5/4401 , H04N5/57 , H04N9/643 , H04N9/68 , H04N9/69 , H04N21/4318 , H04N21/44008 , H04N21/84
摘要: The invention achieves a visual processing device that can execute precise contrast adjustment on image signals that have been input and that does not cause discrepancies in the output timing of the image signals that are output. The visual processing device is provided with a gain-type visual processing portion that outputs a first gain signal having predetermined gain characteristics with respect to the input image signal, and a correction portion that corrects the input image signal based on the first gain signal.
摘要翻译: 本发明实现了可以对输入的图像信号执行精确的对比度调整的视觉处理装置,并且不会在输出的图像信号的输出定时中引起差异。 所述可视处理装置设置有增益型可视处理部,其输出相对于所述输入图像信号具有预定增益特性的第一增益信号,以及校正部,其基于所述第一增益信号来校正所述输入图像信号。
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10.发明申请Visual processing device, visual processing method, visual processing program, integrated circuit, display device, image-capturing device, and portable information terminal 有权视觉处理装置,视觉处理方法,视觉处理程序,集成电路,显示装置,图像捕获装置和便携式信息终端公开(公告)号:US20080107360A1
公开(公告)日:2008-05-08
申请号:US11980581
申请日:2007-10-31
申请人: Haruo Yamashita , Akio Kojima , Toshiharu Kurosawa , Yasuhiro Kuwahara , Tatsumi Watanabe , Yusuke Monobe , Takeshi Ito
发明人: Haruo Yamashita , Akio Kojima , Toshiharu Kurosawa , Yasuhiro Kuwahara , Tatsumi Watanabe , Yusuke Monobe , Takeshi Ito
CPC分类号: G06T5/004 , G06T5/007 , G06T5/40 , G06T2207/10024
摘要: The invention provides a visual processing device that has a hardware configuration that does not depend on the visual processing to be achieved. A visual processing device 1 is provided with a spatial processing portion 2 and a visual processing portion 3. The spatial processing portion 2 performs predetermined processing with respect to an input signal IS that has been received as input, and outputs the result as an unsharp signal US. The visual processing portion 3 outputs an output signal OS, which is the input signal IS after visual processing, based on a two-dimensional LUT 4 that lists the relationship between the input signal IS that has been received as input and the unsharp signal US, and the output signal OS.
摘要翻译: 本发明提供一种视觉处理装置,其具有不依赖于要实现的视觉处理的硬件配置。 视觉处理装置1具有空间处理部2和视觉处理部3。 空间处理部分2对已经作为输入接收的输入信号IS执行预定处理,并且将结果输出为钝化信号US。 可视处理部分3基于列出已经被接收为输入的输入信号IS与钝化信号US之间的关系的二维LUT 4,输出作为可视处理之后的输入信号IS的输出信号OS, 和输出信号OS。
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