公开(公告)号：US20090109340A1

公开(公告)日：2009-04-30

申请号：US12297552

申请日：2007-04-06

申请人： Takuya Iwanami ,  Kenichiroh Yamamoto ,  Yasuhiro Yoshida ,  Takashi Yoshii

发明人： Takuya Iwanami ,  Kenichiroh Yamamoto ,  Yasuhiro Yoshida ,  Takashi Yoshii

IPC分类号： H04N5/58 ,  H04N5/38

CPC分类号： H05B37/029 ,  H04N21/235 ,  H04N21/4131 ,  H04N21/4307 ,  H04N21/435 ,  H04N21/8133

摘要： Provided is an audio visual environment control system capable of realizing optimal audio-visual environment illumination control in accordance with the illumination condition upon shooting of a display image. A data transmission device comprises: a data multiplexing portion for multiplexing the shooting illumination data indicating the illumination condition at the shooting of each scene of video data on the video data, and a transmitting portion for modulating and transmitting the video data on which the shooting illumination data is multiplexed. A data receiving apparatus which receives the data comprises: a data separating portion 22 for separating the shooting illumination data from the video data, a CPU 23 for controlling the illuminating light of an illuminating device 27 in accordance with the illumination data, and an illumination control data generating portion 24.

摘要翻译： 提供一种能够在拍摄显示图像时根据照明条件实现最佳视听环境照明控制的视听环境控制系统。 数据传输装置包括：数据多路复用部分，用于将表示在视频数据上的每个视频数据场景的拍摄时的照明条件的拍摄照明数据多路复用;以及发送部分，用于调制和发送其上拍摄照明 数据被复用。 接收数据的数据接收装置包括：用于将拍摄照明数据与视频数据分离的数据分离部分22，用于根据照明数据控制照明装置27的照明光的CPU 23以及照明控制 数据产生部分24。

公开(公告)号：US20090256962A1

公开(公告)日：2009-10-15

申请号：US12297187

申请日：2007-04-03

申请人： Takuya Iwanami ,  Kenichiroh Yamamoto ,  Yasuhiro Yoshida ,  Takashi Yoshii

发明人： Takuya Iwanami ,  Kenichiroh Yamamoto ,  Yasuhiro Yoshida ,  Takashi Yoshii

IPC分类号： H04N7/00 ,  H04N11/04

CPC分类号： H04N7/165 ,  H04N5/58 ,  H04N9/73 ,  H04N21/235 ,  H04N21/4131 ,  H04N21/4348 ,  H04N21/435 ,  H04N21/43615 ,  H04N21/6543 ,  H05B37/029

摘要： An audio-visual environment control system is provided with a function to control illumination for optimum audio-visual environment in accordance with a scene situation of an displayed image. A data transmission device is comprised of a data multiplexing portion for multiplexing scene situation data indicating scene setting situations of each scene of image data, and a transmitting portion for modulating and transmitting the image data in which the scene situation data are multiplexed. A data receiving apparatus is comprised of a data separating portion 22 for separating the scene situation data from the received image data, a CPU 23 for controlling illumination light of an illuminating device 27 in accordance with the scene situation data, and an illumination control data generating portion 24.

摘要翻译： 视觉环境控制系统具有根据显示图像的场景情况控制照明以获得最佳视听环境的功能。 数据传输装置包括数据多路复用部分，用于复用表示图像数据的每个场景的场景设置情况的场景状况数据，以及用于调制和发送场景情况数据被多路复用的图像数据的发送部分。 数据接收装置包括用于从接收到的图像数据分离场景状况数据的数据分离部分22，用于根据场景状况数据控制照明装置27的照明光的CPU 23，以及产生 部分24。

公开(公告)号：US20100091185A1

公开(公告)日：2010-04-15

申请号：US12529994

申请日：2008-04-18

申请人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida ,  Ikuko Tsubaki

发明人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida ,  Ikuko Tsubaki

IPC分类号： H04N7/01

CPC分类号： G09G3/3611 ,  G09G2320/0261 ,  G09G2320/106 ,  G09G2340/0435 ,  H04N5/145 ,  H04N7/0132 ,  H04N7/014

摘要： An image processing device and method, and an image display device and method which realizes a high-definition displayed video by reducing motion blur caused by a holding-type display system and reducing motion blurs of the displayed video caused by the time integration effect of an image sensor while suppressing deterioration of an image. The image display device includes a motion vector detection section (101) which detects a motion vector in each predetermined region between the frames of an inputted image signal, and an edge emphasis part (2) which emphasizes the high-frequency component of the inputted image signal and an interpolated image signal generated by an FRC part (100) according to the motion amount of the inputted image signal detected by the motion vector detection section (101). This compensates the high-frequency component attenuated by the time integration effect of the image sensor to reduce the apparent motion blurs to improve the sharpness of the displayed image. By making the degree of edge emphasis of the interpolated image signal smaller than that of the inputted image signal, the sharpness of the displayed image is improved without making the image deterioration of the interpolated image signal distinct.

摘要翻译： 一种图像处理装置和方法，以及通过减少由保持型显示系统引起的运动模糊来实现高清晰度显示视频的图像显示装置和方法，并且减少由于时间积分效应引起的所显示的视频的运动模糊 图像传感器，同时抑制图像的劣化。 图像显示装置包括运动矢量检测部（101），其检测输入图像信号的帧之间的每个预定区域中的运动矢量和强调输入图像的高频分量的边缘加重部分（2） 信号和由FRC部分（100）根据由运动矢量检测部分（101）检测的输入图像信号的运动量产生的内插图像信号。 这补偿了由图像传感器的时间积分效应衰减的高频分量，以减少视在运动模糊以提高显示图像的清晰度。 通过使内插图像信号的边缘强调程度小于输入图像信号的边缘强度，可以提高显示图像的清晰度，而不会使内插图像信号的图像劣化不同。

公开(公告)号：US20090231314A1

公开(公告)日：2009-09-17

申请号：US11817141

申请日：2007-02-21

申请人： Toshiharu Hanaoka ,  Yasuhiro Yoshida ,  Masafumi Ueno ,  Hiroyuki Furukawa ,  Kenichiroh Yamamoto ,  Takashi Yoshii

发明人： Toshiharu Hanaoka ,  Yasuhiro Yoshida ,  Masafumi Ueno ,  Hiroyuki Furukawa ,  Kenichiroh Yamamoto ,  Takashi Yoshii

IPC分类号： G09G5/00 ,  G09G3/34

CPC分类号： H04N5/144 ,  G09G3/2096 ,  G09G3/3648 ,  G09G2320/0261 ,  G09G2320/106 ,  G09G2340/14 ,  G09G2340/16 ,  H04N7/013 ,  H04N7/014

摘要： In an image displaying apparatus including a motion compensated rate converting (FRC) portion, deterioration of image quality is prevented in an image having a high-speed region and a low-speed region mixed. The FRC portion includes a motion vector detecting portion 11e and an interpolation frame generating portion 12b. The motion vector detecting portion 11e includes a first region detecting means 112e1 that detects a first region (high-speed region) including a motion amount equal to or greater than a first predetermined amount from an input image signal, a second region detecting means 112e2 that detects a second region (low-speed region) including a motion amount equal to or less than a second predetermined amount from the input image signal, and a third region detecting means 113e that detects a still region from an inter-frame difference of the input image signal. The interpolation frame generating portion 12b executes a motion compensated interpolation process using motion vectors for the still region in the first region (background) and executes a zero-vector interpolation process for the still region in the second region (foreground).

摘要翻译： 在包括运动补偿速率转换（FRC）部分的图像显示装置中，在具有高速区域和低速区域的图像混合的情况下，防止了图像质量的劣化。 FRC部分包括运动矢量检测部分11e和内插帧产生部分12b。 运动矢量检测部分11e包括：第一区域检测装置112e1，其从输入图像信号检测包括等于或大于第一预定量的运动量的第一区域（高速区域）;第二区域检测装置112e2， 从输入图像信号检测包括等于或小于第二预定量的运动量的第二区域（低速区域）以及从输入的帧间差异检测静止区域的第三区域检测装置113e 图像信号。 内插帧生成部分12b使用第一区域（背景）中的静止区域的运动矢量来执行运动补偿插值处理，并对第二区域（前景）中的静止区域执行零矢量插值处理。

公开(公告)号：US20100020233A1

公开(公告)日：2010-01-28

申请号：US12530716

申请日：2008-03-25

申请人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida

发明人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida

IPC分类号： H04N7/01 ,  H04N5/38

CPC分类号： H04N5/144 ,  G09G3/3611 ,  G09G2320/0261 ,  G09G2340/0435 ,  G09G2340/10 ,  G09G2340/125 ,  H04N7/0132 ,  H04N7/0135

摘要： A video image transmitting device, a video image receiving device, a video image recording device, a video image reproducing device, and a video image displaying device all having video signal processings such as a frame rate conversion (FRC) enable prevention of degradation of the video image reproduced by a video signal generated by superimposing first and second video signals on each other. The video image transmitting device (1) includes an editing device (2) for superimposing first and second video signals on each other according to video combining information, a video image encoding processing portion (3) and a video image composite information encoding processing portion (4) for encoding the output video signal from the editing device (2) and video combining information respectively, a multiplexing processing portion (5) for multiplexing the encoded data, and a transmitting portion (6) for transmitting the multiplexed data. The video image receiving device (11) includes a receiving portion (12) for receiving the multiplexed data, a multiplexed data separating processing portion (13) for separating the multiplexed data into the video data and the video image decoding processing portion (14) and a video image composite information decoding processing portion (15) for decoding the video data and the video combining information respectively, and a video image signal processing portion (16) for subjecting the decoded video signal to a predetermined video signal processing. The video image signal processing portion (16) adequately controls the video signal processing of the portion of the second video signal superimposed on the first video signal by using the video combining information, thereby prevents image degradation of and around the portion of the second video signal caused by the video signal processing, and generates a video with higher quality.

公开(公告)号：US08462266B2

公开(公告)日：2013-06-11

申请号：US12529994

申请日：2008-04-18

申请人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida ,  Ikuko Tsubaki

发明人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida ,  Ikuko Tsubaki

IPC分类号： H04N7/01 ,  H04N11/20

CPC分类号： G09G3/3611 ,  G09G2320/0261 ,  G09G2320/106 ,  G09G2340/0435 ,  H04N5/145 ,  H04N7/0132 ,  H04N7/014

摘要： An image processing device and method, and an image display device and method which realizes a high-definition displayed video by reducing motion blur caused by a holding-type display system and reducing motion blurs of the displayed video caused by the time integration effect of an image sensor while suppressing deterioration of an image. The image display device includes a motion vector detection section (101) which detects a motion vector in each predetermined region between the frames of an inputted image signal, and an edge emphasis part (2) which emphasizes the high-frequency component of the inputted image signal and an interpolated image signal generated by an FRC part (100) according to the motion amount of the inputted image signal detected by the motion vector detection section (101). This compensates the high-frequency component attenuated by the time integration effect of the image sensor to reduce the apparent motion blurs to improve the sharpness of the displayed image. By making the degree of edge emphasis of the interpolated image signal smaller than that of the inputted image signal, the sharpness of the displayed image is improved without making the image deterioration of the interpolated image signal distinct.

摘要翻译： 一种图像处理装置和方法，以及通过减少由保持型显示系统引起的运动模糊来实现高清晰度显示视频的图像显示装置和方法，并且减少了由所述保持型显示系统的时间积分效应引起的所显示的视频的运动模糊 图像传感器，同时抑制图像的劣化。 图像显示装置包括运动矢量检测部（101），其检测输入图像信号的帧之间的每个预定区域中的运动矢量和强调输入图像的高频分量的边缘加重部分（2） 信号和由FRC部分（100）根据由运动矢量检测部分（101）检测的输入图像信号的运动量产生的内插图像信号。 这补偿了由图像传感器的时间积分效应衰减的高频分量，以减少视在运动模糊以提高显示图像的清晰度。 通过使内插图像信号的边缘强调程度小于输入图像信号的边缘强度，可以提高显示图像的清晰度，而不会使内插图像信号的图像劣化不同。

公开(公告)号：US08446526B2

公开(公告)日：2013-05-21

申请号：US12513484

申请日：2007-03-12

申请人： Hiroyuki Furukawa ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Masafumi Ueno ,  Yasuhiro Yoshida

发明人： Hiroyuki Furukawa ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Masafumi Ueno ,  Yasuhiro Yoshida

IPC分类号： H04N7/01

CPC分类号： H04N7/014 ,  G09G3/2025 ,  G09G2320/106 ,  H04N5/144 ,  H04N7/0132

摘要： It is an object to suppress a disturbance or distortion of an insertion image in the vicinity of an effective image edge portion such as an edge portion of a screen or the like caused by a moving compensation type frame rate conversion (FRC). An image processing device is provided with a moving vector detection circuit (2) for detecting a moving vector of an input image signal, an effective image edge portion judging circuit (5) for judging if a moving vector detecting position is adjacent to the effective image edge portion, and a vector switching circuit (3) for switching a vector in accordance with the judging result. The vector switching circuit (3) fixes the vector to 0 vector in the case where the moving vector detecting position is adjacent to the effective image edge portion. In the case where the position is in other region, the vector switching circuit (3) outputs the moving vector detected by the moving vector detection circuit (2) to an insertion vector allocation circuit (4).

摘要翻译： 本发明的目的是抑制由移动补偿型帧率转换（FRC）引起的诸如屏幕等的边缘部分的有效图像边缘部分附近的插入图像的干扰或变形。 图像处理装置具有用于检测输入图像信号的移动矢量的移动矢量检测电路（2），用于判断移动矢量检测位置是否与有效图像相邻的有效图像边缘部分判定电路（5） 边缘部分和用于根据判断结果切换矢量的矢量切换电路（3）。 在移动矢量检测位置与有效图像边缘部分相邻的情况下，矢量切换电路（3）将向量固定为0矢量。 在位置处于其他区域的情况下，矢量切换电路（3）将由移动矢量检测电路（2）检测的移动矢量输出到插入矢量分配电路（4）。

公开(公告)号：US08395700B2

公开(公告)日：2013-03-12

申请号：US12312909

申请日：2007-05-18

申请人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida

发明人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida

IPC分类号： H04N7/01

CPC分类号： H04N7/014 ,  G09G3/20 ,  G09G3/3611 ,  G09G2310/061 ,  G09G2320/0261 ,  G09G2320/106 ,  G09G2340/0435 ,  H04N7/0132

摘要： The quality of moving picture image with a large moving amount is prevented from deterioration due to moving compensation type frame rate conversion (FRC) processing. The image display device is comprised of an FRC unit (10) that interpolates an image signal subjected to moving compensation processing between frames so as to convert the number of frames of the input image signal, a moving amount judging unit (14) that judges whether a moving amount of the input image signal between the frames is larger than a predetermined value or not, and a control unit (15). The FRC unit (10) is provided with a moving vector detecting unit (11e) that detects a moving vector between the frames of the input image signal, an interpolation vector evaluating unit (11f) that allocates an interpolation vector between the frames on the basis of the moving vector information and an interpolation frame generating unit (12d) that generates an interpolation frame from the interpolation vector. In the case where the moving amount between the frames of the input image signal is larger than the predetermined value, the control unit (15) sets the moving vector detected by the moving vector detecting unit (11e) to be zero-vector, and it invalidates the moving compensation processing of the FRC unit (10).

摘要翻译： 由于移动补偿型帧速率转换（FRC）处理，防止移动量大的运动图像的质量下降。 图像显示装置包括：FRC单元（10），其对在帧之间进行移动补偿处理的图像信号进行内插，以便转换输入图像信号的帧数;移动量判断单元（14），其判断是否 帧之间的输入图像信号的移动量大于预定值，以及控制单元（15）。 FRC单元（10）设置有移动矢量检测单元（11e），其检测输入图像信号的帧之间的移动矢量;插值矢量评估单元（11f），其基于在帧之间分配插值矢量 的移动矢量信息和从内插矢量生成插值帧的插值帧生成单元（12d）。 在输入图像信号的帧之间的移动量大于预定值的情况下，控制单元（15）将由移动矢量检测单元（11e）检测的移动矢量设置为零向量，并且 使FRC单元（10）的移动补偿处理无效。

公开(公告)号：US08319898B2

公开(公告)日：2012-11-27

申请号：US12530145

申请日：2008-04-18

申请人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida ,  Ikuko Tsubaki

发明人： Masafumi Ueno ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Hiroyuki Furukawa ,  Yasuhiro Yoshida ,  Ikuko Tsubaki

IPC分类号： H04N5/21

CPC分类号： G09G3/3611 ,  G09G2320/0261 ,  G09G2320/106 ,  G09G2340/0435 ,  H04N5/145 ,  H04N7/0132 ,  H04N7/014

摘要： An image processing device, method, an image display device and method which can obtain a high-definition display image by properly controlling processing of reducing the blur of a displayed image caused by the time integration effect of an image sensor. The image display device comprises a motion detection part (1) which detects the moving amount of an input image signal, and an edge emphasis part (2) which subjects the input image signal to edge emphasis processing, and the image display device increases an edge emphasis degree of edge emphasis processing to an area where the moving amount of the input image signal is large. The image display device comprises a genre judgment part (3) which judges the genre classification which the input image signal is connected with according to genre information obtained from outside of the device, and a control part (4) which controls the edge emphasis part (2) to reduce the edge emphasis degree of the edge emphasis processing or to avoid the edge emphasis processing even in the area where the moving amount of the input signal is large when the input image signal is connected with a predetermined genre.

摘要翻译： 一种图像处理装置，方法，图像显示装置和方法，其可以通过适当地控制由图像传感器的时间积分效应引起的减少显示图像的模糊的处理来获得高清晰度显示图像。 图像显示装置包括检测输入图像信号的移动量的运动检测部（1）和使输入图像信号进行边缘加重处理的边缘加重部（2），并且图像显示装置增加边缘 边缘强调处理的强调程度到输入图像信号的移动量大的区域。 图像显示装置包括：类型判定部，根据从装置的外部得到的种类信息，判定输入图像信号连接的流派分类;以及控制部，其控制边缘强调部（ 2）当输入图像信号以预定的类型连接时，即使在输入信号的移动量较大的区域中，也可以减少边缘强调处理的边缘强度，或避免边缘强调处理。

公开(公告)号：US20100118185A1

公开(公告)日：2010-05-13

申请号：US12513484

申请日：2007-03-12

申请人： Hiroyuki Furukawa ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Masafumi Ueno ,  Yasuhiro Yoshida

发明人： Hiroyuki Furukawa ,  Kenichiroh Yamamoto ,  Takashi Yoshii ,  Masafumi Ueno ,  Yasuhiro Yoshida

IPC分类号： H04N7/01

CPC分类号： H04N7/014 ,  G09G3/2025 ,  G09G2320/106 ,  H04N5/144 ,  H04N7/0132

摘要： It is an object to suppress a disturbance or distortion of an insertion image in the vicinity of an effective image edge portion such as an edge portion of a screen or the like caused by a moving compensation type frame rate conversion (FRC). An image processing device is provided with a moving vector detection circuit (2) for detecting a moving vector of an input image signal, an effective image edge portion judging circuit (5) for judging if a moving vector detecting position is adjacent to the effective image edge portion, and a vector switching circuit (3) for switching a vector in accordance with the judging result. The vector switching circuit (3) fixes the vector to 0 vector in the case where the moving vector detecting position is adjacent to the effective image edge portion. In the case where the position is in other region, the vector switching circuit (3) outputs the moving vector detected by the moving vector detection circuit (2) to an insertion vector allocation circuit (4).

摘要翻译： 本发明的目的是抑制由移动补偿型帧率转换（FRC）引起的诸如屏幕等的边缘部分的有效图像边缘部分附近的插入图像的干扰或变形。 图像处理装置具有用于检测输入图像信号的移动矢量的移动矢量检测电路（2），用于判断移动矢量检测位置是否与有效图像相邻的有效图像边缘部分判定电路（5） 边缘部分和用于根据判断结果切换矢量的矢量切换电路（3）。 在移动矢量检测位置与有效图像边缘部分相邻的情况下，矢量切换电路（3）将向量固定为0矢量。 在位置处于其他区域的情况下，矢量切换电路（3）将由移动矢量检测电路（2）检测的移动矢量输出到插入矢量分配电路（4）。