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    • 1. 发明授权
    • Apparatus for displaying image allowing observer to recognize
stereoscopic image
    • 用于显示允许观察者识别立体图像的图像的装置
    • US5838494A
    • 1998-11-17
    • US585501
    • 1996-01-16
    • Keisuke Araki
    • Keisuke Araki
    • G03B33/14G02B27/22G03B35/00H04N13/00H04N13/04G09G3/36
    • H04N13/0445G02B27/2214H04N13/0404H04N13/0418H04N13/0422H04N13/0434H04N13/0459
    • This invention relates to a stereoscopic image display apparatus which allows an observer to recognize a stereoscopic image, and has a lenticular lens sheet constituted by arranging a plurality of lenticular lenses, and a display unit for sequentially arranging and displaying, on a rear surface portion of the lenticular lens sheet, bundles each including n stripe images which are obtained by dividing n parallax images from different view points into a plurality of stripe images, and bundling corresponding stripe images constituting the respective parallax images. When the deviation amount of the central position of each of the lenticular lenses and the central position of the bundle of stripe images is given by .gamma.(t-r)/(2D0) (where K is the assumed interval between two eyes of the observer, D0 is the optimal stereoscopic viewing distance, t is the thickness of the lenticular lens sheet, and r is the radius of curvature of the lenticular lens) at an end portion of an image displayed by the display unit, the apparatus satisfies 0
    • 本发明涉及一种允许观察者识别立体图像并具有通过布置多个双凸透镜而构成的双凸透镜片的立体图像显示装置,以及用于在后面部分上顺序地布置和显示的显示单元 双凸透镜片,每个包括通过将来自不同视点的n个视差图像分割成多个条纹图像而获得的n个条纹图像的捆,以及组合各个视差图像的对应条纹图像。 当每个双凸透镜的中心位置的偏移量和条纹图像束的中心位置由γ(tr)/(2D0)给出时(其中K是观察者的两只眼睛之间的假定间隔,D0 是最佳立体观看距离,t是双凸透镜片的厚度,r是双凸透镜的曲率半径),在显示单元显示的图像的端部处,该装置满足0 <γ<1 。
    • 2. 发明授权
    • Filmless method and apparatus for producing 3-D photographs
    • 用于制作3-D照片的无膜方法和设备
    • US5583971A
    • 1996-12-10
    • US333201
    • 1994-11-02
    • Allen K. Lo
    • Allen K. Lo
    • G03B33/14G02B27/22G03B35/00G03B35/14G03B35/24G06K15/12H04N1/23G06K15/00
    • H04N1/00201G02B27/2214G03B35/14G03B35/24G06K15/1233G06K15/1295H04N1/23
    • A filmless 3D printing method for producing 3D photographs on lenticular print material. The 3D photograph is composed of a series of 2D images of a scene acquired by a video camera and displayed on a video monitor screen. During printing, the projection lens and the print material are moved to different positions to change the projection angles and fill the lenticules with compressed images. While the video camera is moved in relation to the scene to acquire 2D images, it aims at the key subject of the scene at all times so that the location of key subject image on the images displayed on the screen is always the same. Thus, the 2D images exposed on the print material are automatically aligned. The 2D images of a scene at different viewing angles can also be generated on a computer.
    • 一种用于制造透镜状印刷材料的3D照片的无电影3D打印方法。 3D照片由摄像机获取的场景的一系列2D图像组成,并显示在视频监视器屏幕上。 在打印期间,将投影透镜和打印材料移动到不同的位置以改变投影角度并用压缩图像填充微透镜。 当摄像机相对于场景移动以获取2D图像时,它始终针对场景的关键主题,使得屏幕上显示的图像上的主体对象图像的位置总是相同的。 因此,曝光在打印材料上的2D图像被自动对准。 不同视角的场景的2D图像也可以在计算机上生成。
    • 7. 发明授权
    • Pattern to control spread of adhesive during lamination of sheets
    • 在层压片材期间控制粘合剂铺展的图案
    • US5942062A
    • 1999-08-24
    • US882794
    • 1997-06-26
    • Stephen James HassallDaniel Robert May
    • Stephen James HassallDaniel Robert May
    • G03B33/14G02B27/22G03B35/00G03C9/08B32B5/00G03B25/02
    • B41M3/006B32B37/1292G02B27/2214Y10T428/24802Y10T428/28
    • A first sheet (10, 32, 56) is coated by a coater (47) with a pattern comprising a plurality of discrete domains (12, 34) of a low-viscosity adhesive and is then laminated to a second sheet (70) by a paired-roller laminator (62). The viscosity of the adhesive is sufficiently low and the pressure of the laminator sufficiently high that the plurality of adhesive domains (12) are caused to spread during lamination and to displace air from between the sheets, forming thereby a single domain of adhesive which just fills the space between the sheets without adhesive being extruded substantially beyond the edges of the sheets and without air bubbles or voids being entrapped between the sheets. In a preferred pattern, the domains (12) comprise stripes of adhesive with spaces (14) therebetween, the stripes being substantially parallel to the direction of lamination (16). The stripes can be joined by a connecting domain (20) at the leading edge (18) of the first sheet to enhance lamination near that edge, and can be notched or indented (28) at their distal or trailing ends to smooth the adhesive front at the completion of the laminating pass. Preferably, the adhesive is radiation curable, allowing relative movement of the two sheets if desired after laminating, and the adhesive in the single domain then is cured by exposure to appropriate radiation. The method is especially suitable for laminating a lenticular overlay sheet to a lineiform image sheet in forming a lenticular depth image print.
    • 第一片(10,32,56)由涂布机(47)涂覆,图案包括低粘度粘合剂的多个离散区域(12,34),然后通过以下方式层压到第二片材(70)上: 成对辊式层压机(62)。 粘合剂的粘度足够低,并且层压机的压力足够高,使得多个粘合剂区域(12)在层压期间被扩散并且从两个片材之间排出空气,从而形成仅填充粘合剂的单个粘结区域 没有粘合剂的片材之间的空间基本上超过片材的边缘,并且没有气泡或空隙被夹在片材之间。 在优选的图案中,所述区域(12)包括粘合剂条,其间具有间隔(14),所述条基本上平行于层压方向(16)。 条纹可以通过在第一片的前缘(18)处的连接区域(20)连接,以增强靠近该边缘的层压,并且可以在它们的远端或尾端处切口或凹进(28)以平滑粘合剂前端 在完成层压通行证。 优选地,粘合剂是可辐射固化的,允许在层压之后需要时两个片材的相对移动,并且单个结构域中的粘合剂然后通过暴露于合适的辐射而固化。 该方法特别适用于在形成透镜深度图像印刷物时将透镜覆盖片层压到线状图像片。