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    • 3. 发明申请
    • Multiple-view directional display
    • 多视图方向显示
    • US20070058258A1
    • 2007-03-15
    • US11365813
    • 2006-03-02
    • Jonathan MatherRobert WinlowAkira NakagawaDiana KeanGrant Bourhill
    • Jonathan MatherRobert WinlowAkira NakagawaDiana KeanGrant Bourhill
    • G02B27/10
    • G02B27/2214
    • A parallax optic comprises plural, spaced apart lenses which are separated by regions which are non-tranmissive of/to visible light. In some embodiments, the spaced apart lenses of the parallax optic are discrete elements of a lens array. In other embodiments, the lens elements are formed as convex elements integral with and extending from a lenticular layer. Parallax optic devices are combined with one or more image display elements to form an image display device. For embodiments of image display devices featuring or providing two-dimensional (2D) viewability, the parallax optic is preferably near or included in the image display element. On the other hand, for embodiments of image display devices featuring or providing three-dimensional (3D) viewability, the parallax optic is situated outside the image display element.
    • 视差光学元件包括多个间隔开的透镜,它们被非转移/可见光区域分开。 在一些实施例中,视差光学器件的间隔开的透镜是透镜阵列的离散元件。 在其他实施例中,透镜元件形成为与透镜层成一体并从透镜层延伸的凸形元件。 视差光学器件与一个或多个图像显示元件组合以形成图像显示装置。 对于具有或提供二维(2D)可见度的图像显示装置的实施例,视差光学器件优选地靠近或包括在图像显示元件中。 另一方面,对于具有或提供三维(3D)可视性的图像显示装置的实施例,视差光学元件位于图像显示元件的外部。
    • 7. 发明授权
    • Multiple-view directional display
    • 多视图方向显示
    • US07813042B2
    • 2010-10-12
    • US11365813
    • 2006-03-02
    • Jonathan MatherRobert WinlowAkira NakagawaDiana U. KeanGrant Bourhill
    • Jonathan MatherRobert WinlowAkira NakagawaDiana U. KeanGrant Bourhill
    • G02B27/10G09G3/04H04N13/00
    • G02B27/2214
    • A parallax optic comprises plural, spaced apart lenses which are separated by regions which are non-transmissive of/to visible light. In some embodiments, the spaced apart lenses of the parallax optic are discrete elements of a lens array. In other embodiments, the lens elements are formed as convex elements integral with and extending from a lenticular layer. Parallax optic devices are combined with one or more image display elements to form an image display device. For embodiments of image display devices featuring or providing two-dimensional (2D) viewability, the parallax optic is preferably near or included in the image display element. On the other hand, for embodiments of image display devices featuring or providing three-dimensional (3D) viewability, the parallax optic is situated outside the image display element.
    • 视差光学器件包括多个间隔开的透镜,它们被不可透射的可见光区域分开。 在一些实施例中,视差光学器件的间隔开的透镜是透镜阵列的离散元件。 在其他实施例中,透镜元件形成为与透镜层成一体并从透镜层延伸的凸形元件。 视差光学器件与一个或多个图像显示元件组合以形成图像显示装置。 对于具有或提供二维(2D)可见度的图像显示装置的实施例,视差光学器件优选地靠近或包括在图像显示元件中。 另一方面,对于具有或提供三维(3D)可视性的图像显示装置的实施例,视差光学元件位于图像显示元件的外部。