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    • 1. 发明授权
    • Optical system alternating image capture and image projection
    • 光学系统交替图像捕获和图像投影
    • US07806533B2
    • 2010-10-05
    • US11818877
    • 2007-06-15
    • Olivier BouteOlivier Gachignard
    • Olivier BouteOlivier Gachignard
    • G03B21/28
    • G02B27/2292H04N7/144
    • An optical system comprises a first image capture device for capturing an image of an observation area, a first display device, a semi-reflecting plate, a concave mirror disposed facing the first display device, and a second display device for displaying a background image. A light beam is scattered by the first display device through the semi-reflecting plate and then reflected by the mirror and the semi-reflecting plate in order to display an aerial image between the semi-reflecting plate and the observation area. A projector projects a light beam toward one of the display devices. The first image capture device is adapted to capture the image of the observation area via said one display device. A alternating control device alternates capture of an image of the observation area by the first image capture device and projection of the light beam projected by the projector.
    • 光学系统包括用于捕获观察区域的图像的第一图像捕获装置,第一显示装置,半反射板,面向第一显示装置设置的凹面镜以及用于显示背景图像的第二显示装置。 光束被第一显示装置通过半反射板散射,然后被反射镜和半反射板反射,以便在半反射板和观察区域之间显示空间图像。 投影仪将光束投影到显示设备之一。 第一图像捕获装置适于通过所述一个显示装置捕获观察区域的图像。 交替的控制装置通过第一图像拍摄装置交替观察观察区域的图像并投射由投影仪投射的光束。
    • 2. 发明申请
    • Optical system alternating image capture and image projection
    • 光学系统交替图像捕获和图像投影
    • US20080013050A1
    • 2008-01-17
    • US11818877
    • 2007-06-15
    • Olivier BouteOlivier Gachignard
    • Olivier BouteOlivier Gachignard
    • G03B21/26
    • G02B27/2292H04N7/144
    • An optical system comprises a first image capture device for capturing an image of an observation area, a first display device, a semi-reflecting plate, a concave mirror disposed facing the first display device, and a second display device for displaying a background image. A light beam is scattered by the first display device through the semi-reflecting plate and then reflected by the mirror and the semi-reflecting plate in order to display an aerial image between the semi-reflecting plate and the observation area. A projector projects a light beam toward one of the display devices. The first image capture device is adapted to capture the image of the observation area via said one display device. A alternating control device alternates capture of an image of the observation area by the first image capture device and projection of the light beam projected by the projector.
    • 光学系统包括用于捕获观察区域的图像的第一图像捕获装置,第一显示装置,半反射板,面向第一显示装置设置的凹面镜以及用于显示背景图像的第二显示装置。 光束被第一显示装置通过半反射板散射,然后被反射镜和半反射板反射,以便在半反射板和观察区域之间显示空间图像。 投影仪将光束投影到显示设备之一。 第一图像捕获装置适于通过所述一个显示装置捕获观察区域的图像。 交替的控制装置通过第一图像拍摄装置交替观察观察区域的图像并投射由投影仪投射的光束。
    • 3. 发明授权
    • System and method for processing images by visual echo cancellation
    • 通过视觉回声消除处理图像的系统和方法
    • US08421843B2
    • 2013-04-16
    • US11990557
    • 2006-09-07
    • Olivier Gachignard
    • Olivier Gachignard
    • H04N7/14
    • H04N7/144H04N5/74
    • This image processing system comprises: a device (PRJ, SI1) for projecting a first light beam (FL1) to form a first image (I1) on a screen (ECR) on which a second light beam (FL2) coming from an observation area (ZO) forms a second image (I2) and a device (CAM, SI1) for acquiring a third image (I3) formed on the screen (ECR) and corresponding to the superimposition of the second image (I2) and at least a portion (I1′) of the first image (I1). This system further comprises control means (CTR) for: obtaining a first signal (S1) representing the portion (I1′) of the first image (I1), obtaining a second signal (S2) representing the third image (I3), and calculating a third signal (S3) by subtracting at least part of the first signal (S1) from the second signal (S2) to form an image (I2′) representing the observation area (ZO).
    • 该图像处理系统包括:用于投射第一光束(FL1)以在屏幕(ECR)上形成来自观察区域的第二光束(FL2)的第一图像(I1)的装置(PRJ,SI1) (ZO)形成第二图像(I2)和用于获取形成在屏幕(ECR)上并对应于第二图像(I2)的叠加的第三图像(I3)的装置(CAM,SI1)和至少一部分 (I1)的(I1')。 该系统还包括控制装置(CTR),用于:获得表示第一图像(I1)的部分(I1')的第一信号(S1),获得表示第三图像(I3)的第二信号(S2),并计算 通过从第二信号(S2)中减去第一信号(S1)的至少一部分来形成表示观察区域(ZO)的图像(I2')的第三信号(S3)。
    • 4. 发明申请
    • Method and system for synchronizing colorimetric rendering of a juxtaposition of display surfaces
    • 用于同步显示表面并置的比色渲染的方法和系统
    • US20050117053A1
    • 2005-06-02
    • US10505987
    • 2003-02-18
    • Francoise HoumeauOlivier GachignardAlain Leyreloup
    • Francoise HoumeauOlivier GachignardAlain Leyreloup
    • H04N9/12
    • H04N9/12
    • A method for making uniform the colorimetric rendering of a display surface including several adjacent display screens (10a, 10b), comprising for each pair of adjacent screens (10a, 10b) steps of: periodically sampling (21) by a calculation device (5) image data in two corresponding screen (10a, 10b) areas (13a, 13b) in the pair of adjacent screens, analyzing (22, 23, 24) by the calculation device (5) image data sampled in each period to determine a difference in calorimetric rendering between the two screen areas, determining by a correction device (6) connected to the calculation device a process to be applied to the video stream to one of the two video systems controlling the two screens in the pair of adjacent screens, by applying a predetermined correction law to the difference in calorimetric rendering, and applying (26) by the correction device the process to said video system, in order to make the calorimetric rendering of the display surface uniform.
    • 一种用于使包括几个相邻显示屏(10a,10b)的显示表面的比色渲染均匀的方法,包括用于每对相邻屏幕(10a,10b)的步骤:通过计算周期性地采样(21) 在所述一对相邻屏幕中的两个对应屏幕(10a,10b)区域(13a,10b)中的图像数据中的装置(5)图像数据,由所述计算装置(5)分析(22,23,24) 在每个周期中,以确定两个屏幕区域之间的量热显示的差异,通过连接到计算装置的校正装置(6)确定将要应用于视频流的处理到控制两个屏幕的两个视频系统之一 通过对量热显影的差异应用预定的校正定律,并且通过校正装置将所述处理(26)应用于所述视频系统,以使所述显示表面的量热显示均匀,从而使所述一对相邻屏幕。
    • 5. 发明申请
    • DEVICE FOR A VIDEOCONFERENCE COMMUNICATION AND ASSOCIATED COMMUNICATION METHOD
    • 视频通信和相关通信方法的设备
    • US20100091088A1
    • 2010-04-15
    • US12448413
    • 2007-12-06
    • Olivier Gachignard
    • Olivier Gachignard
    • H04N7/15
    • H04N7/144
    • The invention relates to a device (1) for a videoconference communication between a local user (5) and at least one remote user (6), which reduces the eye deflection and provides a better eye contact between the local user and the remote user. The includes a screen (4) capable of restoring, for the local user, an image of the remote user, and an image sensor (3) capable of sensing an image of the local user for the remote user. It further comprises a light source (2) arranged, relative to the image sensor, so as to lighten the eyes of the local user watching the screen during a communication with the remote user, so that the image sensor can detect an image of the local user including a reflection of the light source on a portion at least of each eye of the local user, including the pupil. The device further includes communication means (7) capable of transmitting the detected image to the remote user (6).
    • 本发明涉及一种用于本地用户(5)和至少一个远程用户(6)之间的视频会议通信的设备(1),其减少了眼睛偏转并且提供了本地用户和远程用户之间更好的眼神接触。 包括能够为本地用户恢复远程用户的图像的屏幕(4)和能够感测远程用户的本地用户的图像的图像传感器(3)。 它还包括相对于图像传感器布置的光源(2),以便在与远程用户的通信期间减轻本地用户观看屏幕的眼睛,使得图像传感器可以检测到本地的图像 用户包括光源在本地用户的至少每个眼睛的部分上的反射,包括瞳孔。 该装置还包括能够将检测到的图像发送给远程用户(6)的通信装置(7)。
    • 6. 发明申请
    • System and method for processing images by visual echo cancellation
    • 通过视觉回声消除处理图像的系统和方法
    • US20090251527A1
    • 2009-10-08
    • US11990557
    • 2006-09-07
    • Olivier Gachignard
    • Olivier Gachignard
    • H04N7/14
    • H04N7/144H04N5/74
    • This image processing system comprises: a device (PRJ, SI1) for projecting a first light beam (FL1) to form a first image (I1) on a screen (ECR) on which a second light beam (FL2) coming from an observation area (ZO) forms a second image (I2) and a device (CAM, SI1) for acquiring a third image (I3) formed on the screen (ECR) and corresponding to the superimposition of the second image (I2) and at least a portion (I1′) of the first image (I1). This system further comprises control means (CTR) for: obtaining a first signal (S1) representing the portion (I1′) of the first image (I1), obtaining a second signal (S2) representing the third image (I3), and calculating a third signal (S3) by subtracting at least part of the first signal (S1) from the second signal (S2) to form an image (I2′) representing the observation area (ZO).
    • 该图像处理系统包括:用于投射第一光束(FL1)以在屏幕(ECR)上形成来自观察区域的第二光束(FL2)的第一图像(I1)的装置(PRJ,SI1) (ZO)形成第二图像(I2)和用于获取形成在屏幕(ECR)上并对应于第二图像(I2)的叠加的第三图像(I3)的装置(CAM,SI1)和至少一部分 (I1)的(I1')。 该系统还包括控制装置(CTR),用于:获得表示第一图像(I1)的部分(I1')的第一信号(S1),获得表示第三图像(I3)的第二信号(S2),并计算 通过从第二信号(S2)中减去第一信号(S1)的至少一部分来形成表示观察区域(ZO)的图像(I2')的第三信号(S3)。
    • 7. 发明申请
    • Method and System for Synchronizing Colorimetric Rendering of a Juxtaposition of Display Surfaces
    • 用于同步显示表面并置的比色渲染的方法和系统
    • US20090174780A1
    • 2009-07-09
    • US12365432
    • 2009-02-04
    • Francoise HoumeauOlivier GachignardAlain Leyreloup
    • Francoise HoumeauOlivier GachignardAlain Leyreloup
    • H04N17/02G09G5/00
    • H04N9/12
    • A method for making uniform the colorimetric rendering of a display surface including several adjacent display screens (10a, 10b), comprising for each pair of adjacent screens (10a, 10b) steps of: periodically sampling (21) by a calculation device (5) image data in two corresponding screen (10a, 10b) areas (13a, 13b) in the pair of adjacent screens, analyzing (22, 23, 24) by the calculation device (5) image data sampled in each period to determine a difference in calorimetric rendering between the two screen areas, determining by a correction device (6) connected to the calculation device a process to be applied to the video stream to one of the two video systems controlling the two screens in the pair of adjacent screens, by applying a predetermined correction law to the difference in calorimetric rendering, and applying (26) by the correction device the process to said video system, in order to make the colorimetric rendering of the display surface uniform.
    • 一种用于使包括几个相邻显示屏(10a,10b)的显示表面的比色渲染均匀的方法,包括:对于每对相邻的屏幕(10a,10b),步骤:通过计算装置(5)周期性地采样(21) 在所述一对相邻屏幕中的两个对应屏幕(10a,10b)区域(13a,13b)中的图像数据,由所述计算装置(5)分析(22,23,24)在每个周期中采样的图像数据,以确定 在两个屏幕区域之间的比色渲染,通过连接到计算装置的校正装置(6)确定要应用于视频流的处理到控制该对相邻屏幕中的两个屏幕的两个视频系统之一的应用 对色度差异的预定校正规则,以及将所述校正装置(26)应用于所述视频系统的步骤(26),以使所述显示面的比色渲染均匀。
    • 8. 发明授权
    • Processing of an image representative of an observation zone
    • 处理观察区域的图像
    • US08547397B2
    • 2013-10-01
    • US12729737
    • 2010-03-23
    • Olivier Gachignard
    • Olivier Gachignard
    • G09G5/00G06K9/00G01S15/00
    • G06T7/33G06T2207/10021G06T2207/30196
    • A method for processing data, in particular an image representative of an observation zone in which is situated an object arranged with respect to a reference plane.Such a method comprises the following steps: reception of the image which has been captured beforehand by means of first and second image capture devices, display (EV2) of the image received in a plane which comprises an object plane, containing said object, and said reference plane which has been determined beforehand as being the plane situated at the intersection of a conical beam and of a parallel beam emitted respectively by said first and second image capture devices, determination (EV3), in the displayed image, of the number of pixels separating two contiguous sides, respectively of the object plane and of the reference plane, and extending along a determined direction (X or Y), correlation (EV4) of the determined number of pixels with the value of the measurement of the real distance (d) which separates said object from said reference plane.
    • 一种用于处理数据的方法,特别是表示其中位于相对于参考平面布置的对象的观察区域的图像。 这种方法包括以下步骤:通过第一和第二图像捕捉装置接收预先捕获的图像,在包含所述对象的包括物体平面的平面中接收的图像的显示(EV2)和所述 预先确定为位于分别由所述第一和第二图像捕获装置发射的锥形光束和平行光束的交叉点的平面的参考平面,所显示的图像中的像素数量的确定(EV3) 分别分别对物平面和参考平面的两个相邻边,并且沿确定的方向(X或Y)延伸,确定的像素数的相关(EV4)与实际距离的测量值(d ),其将所述物体与所述参考平面分离。
    • 9. 发明授权
    • Device for a videoconference communication and associated communication method
    • 用于视频会议通信和相关通信方法的设备
    • US08264523B2
    • 2012-09-11
    • US12448413
    • 2007-12-06
    • Olivier Gachignard
    • Olivier Gachignard
    • H04N7/14
    • H04N7/144
    • The invention relates to a device (1) for a videoconference communication between a local user (5) and at least one remote user (6), which reduces the eye deflection and provides a better eye contact between the local user and the remote user. The device includes a screen (4) capable of restoring, for the local user, an image of the remote user, and an image sensor (3) capable of sensing an image of the local user for the remote user. It further comprises a light source (2) arranged, relative to the image sensor, so as to lighten the eyes of the local user watching the screen during a communication with the remote user, so that the image sensor can detect an image of the local user including a reflection of the light source on a portion at least of each eye of the local user, including the pupil. The device further includes communication means (7) capable of transmitting the detected image to the remote user (6).
    • 本发明涉及一种用于本地用户(5)和至少一个远程用户(6)之间的视频会议通信的设备(1),其减少了眼睛偏转并且提供了本地用户和远程用户之间更好的眼神接触。 该设备包括能够为本地用户恢复远程用户的图像的屏幕(4)和能够感测远程用户的本地用户的图像的图像传感器(3)。 它还包括相对于图像传感器布置的光源(2),以便在与远程用户的通信期间减轻本地用户观看屏幕的眼睛,使得图像传感器可以检测到本地的图像 用户包括光源在本地用户的至少每个眼睛的部分上的反射,包括瞳孔。 该装置还包括能够将检测到的图像发送给远程用户(6)的通信装置(7)。
    • 10. 发明授权
    • Method and system for synchronizing colorimetric rendering of a juxtaposition of display surfaces uniform
    • 用于同步显示表面并置的比色渲染的方法和系统统一
    • US07940329B2
    • 2011-05-10
    • US12365432
    • 2009-02-04
    • Francoise HoumeauOlivier GachignardAlain Leyreloup
    • Francoise HoumeauOlivier GachignardAlain Leyreloup
    • H04N17/00H04N5/66H04N9/73H04N3/22H04N3/26H04N17/02G09G5/00
    • H04N9/12
    • A method for making uniform the colorimetric rendering of a display surface including several adjacent display screens (10a, 10b), comprising for each pair of adjacent screens (10a, 10b) steps of: periodically sampling (21) by a calculation device (5) image data in two corresponding screen (10a, 10b) areas (13a, 13b) in the pair of adjacent screens, analyzing (22, 23, 24) by the calculation device (5) image data sampled in each period to determine a difference in calorimetric rendering between the two screen areas, determining by a correction device (6) connected to the calculation device a process to be applied to the video stream to one of the two video systems controlling the two screens in the pair of adjacent screens, by applying a predetermined correction law to the difference in calorimetric rendering, and applying (26) by the correction device the process to said video system, in order to make the colorimetric rendering of the display surface uniform.
    • 一种用于使包括几个相邻显示屏(10a,10b)的显示表面的比色渲染均匀的方法,包括:对于每对相邻的屏幕(10a,10b),步骤:通过计算装置(5)周期性地采样(21) 在所述一对相邻屏幕中的两个对应屏幕(10a,10b)区域(13a,13b)中的图像数据,由所述计算装置(5)分析(22,23,24)在每个周期中采样的图像数据,以确定 通过应用两个屏幕区域之间的量热显示,通过应用连接到计算设备的校正设备(6)来确定要应用于视频流的处理到控制该对相邻屏幕中的两个屏幕的两个视频系统之一的处理 对量热显影的差异的预定校正规则,以及通过校正装置(26)将处理应用于所述视频系统,以使显示表面的比色渲染均匀。