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公开(公告)号:US20150098132A1
公开(公告)日:2015-04-09
申请号:US14571750
申请日:2014-12-16
Inventor: Yuji NAGAISHI , Hiroaki SHIMAZAKI , Kenjiro TSUDA , Takashi MASUNO , Osamu KAJINO
CPC classification number: G02B27/1013 , G02B5/04 , G02B27/14 , G02B27/22 , G03B35/08 , G03B35/10 , H04N13/214 , H04N13/239
Abstract: A split unit capable of providing a stereoscopic image having less laterality is provided. The split unit includes: a beam splitter which transmits first imaging light as a part of light incident on an incident surface of the beam splitter, and reflects second imaging light as another part of the light incident on the incident surface; and a reflecting member which reflects the second imaging light reflected by the beam splitter. At least one of a reflectance of the reflecting member and a beam splitting characteristic of the beam splitter is set based on the following formulae: T=d/(1+d) R=1−T where T (0≦T≦1) is a transmittance of the beam splitter, R (0≦R≦1) is a reflectance of the beam splitter, and d (0≦d≦1) is a reflectance of the reflecting member.
Abstract translation: 提供了一种能够提供具有较小转向性的立体图像的分割单元。 分割单元包括:分束器,其将作为入射在分束器的入射表面上的光的一部分的第一成像光透射,并且将作为入射到入射面的光的另一部分的第二成像光反射; 以及反射部件,其反射由分束器反射的第二成像光。 基于以下公式设置反射构件的反射率和分束器的分束特性中的至少一个:T = d /(1 + d)R = 1-T其中T(0≦̸ T≦̸ 1) 是分束器的透射率,R(0≦̸ R≦̸ 1)是分束器的反射率,d(0≦̸ d≦̸ 1)是反射构件的反射率。
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公开(公告)号:US20150097930A1
公开(公告)日:2015-04-09
申请号:US14569384
申请日:2014-12-12
Inventor: Takashi MASUNO , Tatsuro JURI , Hiroaki SHIMAZAKI , Kenjiro TSUDA , Yuji NAGAISHI
CPC classification number: H04N13/296 , G03B13/36 , G03B35/00 , G03B35/08 , G03B2205/0046 , H04N5/23296 , H04N13/239
Abstract: A first camera for capturing an image of a subject, a second camera for capturing an image of a subject, an optical component disposed on an optical path when the first camera images a subject, and on an optical path when the second camera images a subject, and an adjuster for adjusting a distance between an optical axis of the first camera and an optical axis of the second camera by moving at least one of the first camera and the second camera horizontally are included. The adjuster can move at least one of the first camera and the second camera horizontally in a wider range when a zoom ratio of the first camera and the second camera is a first ratio than when the zoom ratio is a second ratio that is lower than the first ratio.
Abstract translation: 用于拍摄被摄体的图像的第一照相机,用于拍摄被摄体的图像的第二照相机,当第一照相机对被摄体成像时设置在光路上的光学部件,以及当第二照相机成像对象时的光路上 并且包括用于通过水平移动第一相机和第二相机中的至少一个来调整第一相机的光轴与第二相机的光轴之间的距离的调节器。 当第一照相机和第二照相机的变焦倍率是第一比率时,调节器可以在更宽的范围内水平地移动第一照相机和第二照相机中的至少一个,而不是当缩放比是低于 第一比例。
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3.发明申请IMAGE CODING DEVICE, IMAGE CODING METHOD, AND IMAGE CODING INTEGRATED CIRCUIT 审中-公开图像编码装置,图像编码方法和图像编码集成电路公开(公告)号:US20150085918A1
公开(公告)日:2015-03-26
申请号:US14555825
申请日:2014-11-28
Inventor: Hiroshi AMANO , Takeshi TANAKA , Masaki MAEDA , Kenjiro TSUDA , Masayasu IGUCHI , Youji SHIBAHARA
IPC: H04N19/139 , H04N19/436 , H04N19/43 , H04N19/105 , H04N19/176
CPC classification number: H04N19/139 , H04N19/105 , H04N19/109 , H04N19/137 , H04N19/176 , H04N19/43 , H04N19/436 , H04N19/51 , H04N19/52 , H04N19/61
Abstract: When compression encoding processing of an image is performed in units of macroblocks using a pipeline structure, an application of a skip mode or the like according to MPEG4AVC to compression encode an encoding target block requires motion vectors and the like of adjacent blocks of the encoding target block. However, depending on a structure of the pipeline stages, the motion vectors may not be determined. In such cases, the skip mode cannot be applied to compression encode the encoding target block. This problem can be solved by (i) calculating all motion information candidates, of the encoding target block, corresponding to all motion information selectable by a previous block of the encoding target block, and (ii) selecting, as the motion information of the encoding target block in the skip mode, the motion information corresponding to the motion information determined for the previous block.
Abstract translation: 当使用流水线结构以宏块为单位执行图像的压缩编码处理时,根据MPEG4AVC的跳过模式等的应用对编码对象块进行压缩编码需要编码对象的相邻块的运动矢量等 块。 然而,根据流水线级的结构,可能不确定运动矢量。 在这种情况下,跳过模式不能应用于编码目标块的压缩编码。 该问题可以通过以下步骤来解决:(i)计算编码目标块的所有运动信息候选,对应于由编码目标块的先前块选择的所有运动信息,以及(ii)选择编码对象块的运动信息 在跳过模式中的目标块,对应于针对前一块确定的运动信息的运动信息。
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公开(公告)号:US20180055458A1
公开(公告)日:2018-03-01
申请号:US15558430
申请日:2016-02-10
Inventor: Kenjiro TSUDA
Abstract: Image display device includes image outputting unit, part moving unit, and matching degree score calculating unit. Image outputting unit outputs, among a plurality of images obtained by performing a multilayered anatomy in a plurality of parts of a human body, an image of one layer of one part as a current image. Part moving unit acquires a part moving instruction after current image is output. Matching degree score calculating unit calculates a matching degree score indicating the matching degree between the organ included in current image and a candidate image by comparing label information indicating the organ included in current image and label information indicating the organ included in candidate image, with respect to each of a plurality of candidate images of a movement target part. Image outputting unit outputs candidate image in which a maximum matching degree score is calculated as a new current image.
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