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    • 2. 发明申请
    • STORAGE MEDIUM, INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD AND INFORMATION PROCESSING SYSTEM
    • 存储介质,信息处理设备,信息处理方法和信息处理系统
    • US20120146992A1
    • 2012-06-14
    • US13025619
    • 2011-02-11
    • Kazushi MAETARyuji Nishikawa
    • Kazushi MAETARyuji Nishikawa
    • G06T15/00
    • A63F13/52A63F13/10A63F13/537A63F13/837A63F2300/306A63F2300/6653G06F3/04815G06T15/20H04N13/128H04N13/156
    • A computer-readable storage medium having stored therein an information processing program to be executed by a computer is provided. The information processing program causes the computer to function as: preferential display object placing means for placing a preferential display object in an imaging range of a virtual stereo camera in a virtual three-dimensional space; stereoscopically visible image rendering means for taking the virtual three-dimensional space using the virtual stereo camera, and rendering a stereoscopically visible image of the virtual three-dimensional space; and display control means for causing the display apparatus to display the stereoscopically visible image rendered by the stereoscopically visible image rendering means. The stereoscopically visible image rendering means renders the preferential display object by using a parallax based on a first depth from the virtual stereo camera, according to a preference order based on a second depth, shallower than the first depth, from the virtual stereo camera.
    • 其中存储有要由计算机执行的信息处理程序的计算机可读存储介质。 所述信息处理程序使所述计算机用作:优先显示对象放置装置,用于将虚拟立体相机的优选显示对象放置在虚拟三维空间中; 立体视觉图像渲染装置,用于使用虚拟立体相机拍摄虚拟三维空间,并渲染虚拟三维空间的立体视觉图像; 以及显示控制装置,用于使显示装置显示由立体视觉图像渲染装置呈现的立体视觉图像。 立体视觉图像渲染装置根据来自虚拟立体相机的基于比第一深度浅的第二深度的偏好顺序,使用基于来自虚拟立体相机的第一深度的视差来呈现优先显示对象。
    • 4. 发明授权
    • Light-emitting display
    • 发光显示
    • US07903055B2
    • 2011-03-08
    • US11579215
    • 2005-04-27
    • Ryuji NishikawaTetsuji Omura
    • Ryuji NishikawaTetsuji Omura
    • G09G3/30
    • H01L51/5262H01L27/3213H01L27/322H01L27/3258H01L51/5209H01L51/5265H01L2251/558H05B33/22
    • Disclosed is a light-emitting display having a plurality of pixels wherein each pixel comprises a light-emitting device (100) having a light-emitting element layer which is formed between a first electrode and a second electrode and contains at least a light-emitting layer. An insulating layer (30) is formed between the light-emitting device (100) and a surface of a first or second substrate on the viewing side of the display, and the insulating layer (30) is provided with recesses and projections in at least one or more pixel regions, thereby forming an optical path length adjusting portion (32). By forming such an optical path length adjusting portion (32) in a pixel region, there is an increase in the interference conditions for the light emitted from the light-emitting device (100) to the outside, thereby averaging the interference.
    • 公开了一种具有多个像素的发光显示器,其中每个像素包括具有发光元件层的发光器件(100),发光元件层形成在第一电极和第二电极之间,并且至少包含发光 层。 在发光装置(100)和显示器的观看侧的第一或第二基板的表面之间形成绝缘层(30),绝缘层(30)至少设置有凹部和凸部 一个或多个像素区域,从而形成光路长度调节部分(32)。 通过在像素区域中形成这样的光路长度调整部(32),从发光装置(100)发射到外部的光的干涉条件增加,从而平均干涉。
    • 6. 发明授权
    • Method of manufacturing electroluminescent display device with interlayer insulating film having convex and concave portions
    • 具有凹凸部的层间绝缘膜的电致发光显示装置的制造方法
    • US07223146B2
    • 2007-05-29
    • US10378082
    • 2003-03-04
    • Ryuji Nishikawa
    • Ryuji Nishikawa
    • H01J9/00
    • H01L27/3258H01L51/5209H01L51/5262H05B33/26
    • A concave and convex portion is formed on the surface of the planarization insulating film. The surface of the anode also has a concave and convex portion, reflecting the concave and convex structure of the planarization insulating film. The hole transportation layer, the emissive layer, the electron transportation layer and the cathode are disposed on the anode through vacuum evaporation. The surface of the hole transportation layer, the emissive layer, the electron transportation layer, and the cathode has the concave and convex structure, respectively, reflecting the concave and convex structure on the surface of the anode. The effective light-emitting area of the emissive layer is larger than that of a conventional device. That is, a higher brightness can be achieved by increasing the effective light-emitting area of the EL device. Also, the life span of the EL device is extended while keeping its brightness at a conventional level.
    • 在平坦化绝缘膜的表面上形成凹凸部。 阳极的表面也具有凹凸部,反映平坦化绝缘膜的凹凸结构。 空穴传输层,发射层,电子传输层和阴极通过真空蒸发设置在阳极上。 空穴传输层,发射层,电子传输层和阴极的表面分别具有反映阳极表面上的凹凸结构的凹凸结构。 发光层的有效发光面积大于常规器件的有效发光面积。 也就是说,通过增加EL器件的有效发光面积可以实现更高的亮度。 此外,EL器件的寿命延长,同时将其亮度保持在常规水平。
    • 9. 发明申请
    • Electroluminescence element
    • 电致发光元件
    • US20060066231A1
    • 2006-03-30
    • US11238734
    • 2005-09-29
    • Ryuji NishikawaNobuo Saito
    • Ryuji NishikawaNobuo Saito
    • H01L51/50H05B33/12
    • H01L51/5036H01L27/322H01L51/0059H01L51/0062H01L51/0081Y10T428/2495
    • An EL element includes, between an anode and a cathode, an emissive element layer including a plurality of emissive layers. The emissive element layer includes two or more organic layers containing a hole transporting compound, and one or more of the plurality of emissive layers contain the hole transporting compound. The concentration of the hole transporting compound in the organic layer which is formed closest to the electron injecting electrode among the organic layers containing the hole transporting compound is lower than the concentration of the hole transporting compound in the organic layer which is formed closest to the hole injecting electrode. When three or more organic layers contain a hole transporting compound, the concentration of the hole transporting compound contained in each organic layer can be set such that, as the organic layer is further away from the hole injecting electrode, the concentration is lower. With this setting, the supply amount and supply timing of holes and electrons can be optimized easily with regard to each of the plurality of emissive layers, so that uniform light emission can be generated in any one of the emissive layers.
    • EL元件在阳极和阴极之间包括包括多个发射层的发射元件层。 发射元件层包括两个或更多个含有空穴传输化合物的有机层,并且多个发光层中的一个或多个包含空穴传输化合物。 包含空穴传输性化合物的有机层中最靠近电子注入电极形成的有机层中的空穴传输化合物的浓度低于最靠近孔的有机层中的空穴传输化合物的浓度 注入电极。 当三个或更多个有机层包含空穴传输化合物时,可以将每个有机层中包含的空穴传输化合物的浓度设定为使得当有机层离空穴注入电极更远时,其浓度较低。 利用这种设置,可以相对于多个发射层中的每一个容易地优化空穴和电子的供应时间和供应时间,从而可以在任何一个发射层中产生均匀的发光。