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    • 2. 发明申请
    • Rendering Views for a Multi-View Display Device
    • 渲染多视图显示设备的视图
    • US20080309756A1
    • 2008-12-18
    • US12094628
    • 2006-11-17
    • Reinout VerburghRalph Braspenning
    • Reinout VerburghRalph Braspenning
    • H04N13/04
    • G06T7/20G06T3/40H04N13/111H04N13/282H04N13/349H04N2013/0085
    • A method of rendering views for a multi-view display device (100) is disclosed. The multi-view display device (100) comprises a number of display means (104, 110) for displaying respective views in mutually different directions relative to the multi-view display device (100). The method comprises: computing a first motion vector field on basis of a first input image of a time sequence of input images and a second input image of the time sequence of input images; computing a first motion compensated intermediate image on basis of the first motion vector field, the first input image and/or the second input image; and providing the first motion compensated intermediate image to a first one of the number of display means (104, 110).
    • 公开了一种呈现多视图显示设备(100)的视图的方法。 多视点显示装置(100)包括多个显示装置(104,110),用于相对于多视点显示装置(100)在相互不同的方向上显示各个视图。 该方法包括:基于输入图像的时间序列的第一输入图像和输入图像的时间序列的第二输入图像来计算第一运动矢量场; 基于第一运动矢量场,第一输入图像和/或第二输入图像计算第一运动补偿中间图像; 以及将第一运动补偿中间图像提供给多个显示装置(104,110)中的第一运动补偿中间图像。
    • 4. 发明申请
    • EFFICIENT ENCODING OF MULTIPLE VIEWS
    • 有效编辑多个视图
    • US20100231689A1
    • 2010-09-16
    • US12294515
    • 2007-03-23
    • Wilhelmus Hendrikus Alfonsus BrulsChristiaan VarekampRalph Braspenning
    • Wilhelmus Hendrikus Alfonsus BrulsChristiaan VarekampRalph Braspenning
    • H04N13/00
    • H04N19/597H04N13/128H04N13/161H04N19/00H04N2213/005
    • A new method of encoding multiple view image information into an image signal (200) is described, comprising: adding to the image signal (200) a first image (220) of pixel values representing one or more objects (110, 112) captured by a first camera (101);—adding to the image signal (200) a map (222) comprising for respective sets of pixels of the first image (220) respective values, representing a three-dimensional position in space of a region of the one or more objects (110, 112) represented by the respective set of pixels; and adding to the image signal (200) a partial representation (223) of a second image (224) of pixel values representing one or more objects (110, 112) captured by a second camera (102), the partial representation (223) comprising at least information of the majority of the pixels representing regions of the one or more objects (110, 112) not visible to the first camera (101). Advantages are less required information for higher precision and increased usability.
    • 描述了将多个视图图像信息编码成图像信号(200)的新方法,包括:向图像信号(200)添加表示由一个或多个对象(110,112)捕获的一个或多个对象(110,112)的像素值的第一图像(220) 第一相机(101); - 向所述图像信号(200)添加包括对于所述第一图像(220)的各组像素的各个值的映射(222),其表示所述第一图像的区域的空间中的三维位置 由相应的像素集合表示的一个或多个对象(110,112); 并且向所述图像信号(200)添加表示由第二相机(102)捕获的一个或多个对象(110,112)的像素值的第二图像(224)的部分表示(223),所述部分表示(223) 至少包括表示第一相机(101)不可见的一个或多个对象(110,112)的区域的大多数像素的信息。 优点是要求更高的信息,更高的精度和更高的可用性。
    • 6. 发明申请
    • Multiview display device
    • 多视图显示设备
    • US20070177006A1
    • 2007-08-02
    • US10598643
    • 2005-03-04
    • Siebe De ZwartWillem IjzermanRalph BraspenningMarc Op De BeeckRobert-Paul Berretty
    • Siebe De ZwartWillem IjzermanRalph BraspenningMarc Op De BeeckRobert-Paul Berretty
    • H04N13/04H04N15/00H04N9/47
    • G02B27/2214H04N5/14H04N13/302H04N13/398
    • A multiview display device (600) for displaying multiple views, the multiple views having respective viewing angles related to an object to be displayed is disclosed. The display device comprises optical means (1108) for displaying multiple viewing cones, a first one of the multiple viewing cones having an angular distribution (630) of the views relative to the display device; and driving means (1106) for providing the optical means (1108) with sets of image data corresponding to the respective views. The sets of image data are provided such that the angular distribution (630) has a first part of adjacent views with increasing viewing angle and a second part of adjacent views with decreasing viewing angle and the angular distribution (630) has a first one of the views in between a maximum view which corresponds to a maximum viewing angle and a minimum view which corresponds to a minimum viewing angle.
    • 公开了一种用于显示多个视图的多视点显示设备(600),具有与要显示的对象相关的各个视角的多个视图。 所述显示装置包括用于显示多个观察锥的光学装置(1108),所述多个观察锥中的第一个具有相对于所述显示装置的视图的角度分布(630); 以及用于向光学装置(1108)提供与各个视图对应的图像数据组的驱动装置(1106)。 这些图像数据被提供为使得角分布(630)具有视角增加的相邻视图的第一部分和具有减小的视角的相邻视图的第二部分,并且角分布(630)具有第一个 在对应于最大视角的最大视图和对应于最小视角的最小视图之间的视图。
    • 10. 发明申请
    • MOTION VECTOR FIELD PROJECTION DEALING WITH COVERING AND UNCOVERING
    • 运动矢量场投影处理与覆盖和去除
    • US20090147851A1
    • 2009-06-11
    • US11719782
    • 2005-11-17
    • Reinier Bernardus Maria Klein GunnewiekRimmert WittebroodRalph Braspenning
    • Reinier Bernardus Maria Klein GunnewiekRimmert WittebroodRalph Braspenning
    • H04N7/26
    • H04N19/521H04N19/513H04N19/553H04N19/573
    • The method for high efficiency video signal compression comprises: a) calculating a first motion vector field (MvI) at a temporal location (t3) of a third video picture (125) by using pixel data of a second video picture (123) and the third video picture; b) calculating a second motion vector field (Mv2) at a temporal location (t2) of the second video picture (123), in which second motion vector field (Mv2) a foreground motion region (rFG2) composed of positions of foreground motion vectors, having a magnitude substantially equal to the motion of a foreground object (101), substantially collocates spatially with positions of pixels of the foreground object (101) and not with pixels of a background object (103, 103′); c) correcting erroneous foreground motion vectors (rERR) in an uncovering region of the first motion vector field (MvI) on the basis of the second motion vector field (Mv2); d) determining in a region (COV) of the first motion vector field corresponding to covering of background object pixels by the foreground object which of two vectors, projecting to a same spatial position in a future picture, is a foreground motion vector (vFG) and which is a background motion vector (vBG); e) projecting motion vectors of the first motion vector field to a temporal location (t4) of a fourth video picture (127) to be predicted, obtaining a third motion vector field (Mv3), comprising allocating a foreground motion vector (vFG) in the case of two vectors projecting to the same spatial position in the third motion vector field (Mv3); and f) predicting the fourth video picture (127) by using the third motion vector field (Mv3) for determining positions of pixels to be fetched from at least one previous image (125).
    • 用于高效率视频信号压缩的方法包括:a)通过使用第二视频图像(123)的像素数据在第三视频图像(125)的时间位置(t3)处计算第一运动矢量场(Mv1),并且 第三视频图片; b)在第二视频图像(123)的时间位置(t2)处计算第二运动矢量场(Mv2),其中第二运动矢量场(Mv2)由前景运动矢量的位置组成的前景运动区域(rFG2) 具有基本上等于前景物体(101)的运动的大小的幅度,基本上与空间上与前景物体(101)的像素的位置并置,而不与背景物体(103,103')的像素并置; c)基于第二运动矢量场(Mv2)在第一运动矢量场(Mv1)的露出区域中校正错误的前景运动矢量(rERR); d)通过前景对象来确定与背景物体像素的覆盖相对应的第一运动矢量场的区域(COV),在向后图像中投射到相同空间位置的两个向量中的哪一个是前景运动矢量(vFG) 并且其是背景运动矢量(vBG); e)将第一运动矢量场的运动矢量投影到要预测的第四视频图像(127)的时间位置(t4),获得第三运动矢量场(Mv3),包括将前景运动矢量(vFG) 在第三运动矢量场(Mv3)中投射到相同空间位置的两个矢量的情况; 以及f)通过使用用于确定要从至少一个先前图像(125)获取的像素的位置的第三运动矢量场(Mv3)来预测第四视频图像(127)。