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    • 1. 发明申请
    • TUNNEL VISION VIDEO DISPLAY SYSTEM
    • 隧道视觉视频显示系统
    • WO1993018496A2
    • 1993-09-16
    • PCT/US1993001612
    • 1993-02-24
    • HUGHES TRAINING, INC.
    • HUGHES TRAINING, INC.BROOKE, Kenneth, R.
    • G09B09/32
    • G09B9/32A63F13/08G09B9/05H04N5/74H04N5/7408H04N5/7491
    • A video display system (10) that provides a low cost means by which a high volume of participants may be processed through an interactive video system in a rapid manner. The system is comprised of a darkened serpentine tunnel (13) constructed of flat faceted rear projection screens (15), formed as a series of multi-screen sections (14). Video imagery is projected onto the screens from video projectors (17) using reflecting mirrors (18) disposed on the back side of the screens (15). The screen sections (14) are mated together to form the complete tunnel (13). Participants traverse through the darkened tunnel (13) riding in vehicles (12) that are guided in a manner analogous to automobiles processed through a car wash or a factory assembly line. As each vehicle (12) progresses down the tunnel (13), the projection screens (15) currently surrounding the vehicle are illuminated, together with the preceding and succeeding screen sections (14). As the vehicle transitions from the current section to the forward section, the rearward section is extinguished and the next forward section is illuminated. The image intensity of the forward section is gradually increased as the vehicle approaches, by virtue of the gain characteristics of the projection screens, thus making the transition nearly undetectable. The video display system (10) thus provides the means by which an operator of an amusement park ride or training system may quickly and efficiently process a large number of participants through them. The video display system (10) allows an interactive video system designer to break up participant batch size into much smaller groups, thus minimizing intergroup waiting time and greatly increasing throughput.
    • 3. 发明申请
    • A METHOD AND APPARATUS FOR ALIGNING VISUAL IMAGES WITH VISUAL DISPLAY DEVICES
    • 一种使用可视显示设备对准视觉图像的方法和装置
    • WO1994021087A1
    • 1994-09-15
    • PCT/US1994002232
    • 1994-03-01
    • HUGHES TRAINING, INC.
    • HUGHES TRAINING, INC.DUGDALE, Jonathan, L.LINDLY, Ross, N.
    • H04N17/04
    • H04N5/7408H04N3/22H04N17/04
    • A method and apparatus is provided for ensuring that an image projected upon a visual display device is properly aligned with the viewing surface of the display device. Important to achieving the proper alignment is the use of fluorescent ink which is visible only when illuminated under ultraviolet light. Use of the fluorescent ink allows a pattern of reference points, constituting an alignment pattern, to be permanently marked directly on the viewing surface of the visual display device, for example. Since the alignment pattern is permanently marked and is visible only when illuminated with ultraviolet light, alignment between the image and the display device can be immediately determined without the aid of additional equipment such as is employed by previously known image alignment systems.
    • 提供了一种方法和装置,用于确保投影在视觉显示装置上的图像与显示装置的观察表面正确对准。 实现正确对准重要的是使用仅在紫外线照射下才可见的荧光墨水。 使用荧光墨水允许例如构成对准图案的参考点图案被直接永久地标记在视觉显示装置的观察表面上。 由于对准图案被永久标记,并且仅当用紫外线照射时才可见,因此可以立即确定图像和显示装置之间的对准,而无需借助诸如先前已知的图像对准系统所采用的附加设备。
    • 5. 发明申请
    • ULTRA-WIDE FIELD OF VIEW, BROAD SPECTRAL BAND HELMET VISOR DISPLAY OPTICAL SYSTEM
    • 超广角视野,宽带光带索具显示光学系统
    • WO1995010062A1
    • 1995-04-13
    • PCT/US1994011093
    • 1994-09-29
    • HUGHES TRAINING, INC.
    • HUGHES TRAINING, INC.CHEN, Chungte, W.BENTLEY, Kris, E.
    • G02B27/00
    • G02B27/0172G02B5/04G02B27/017G02B2027/011G02B2027/0116G02B2027/0123G02B2027/0143
    • An optical display system in which an image is projected onto a combiner surface (4) at a significant bending angle theta effectively compensates asymmetric aberrations, including quadratic, linear and constant binodal astigmatism components and both linear and constant coma components. Forward and rear optical lens relay groups (14, 16) are positioned between an image generator (6, 8) and the combiner surface. The two relay groups are independently decentered and angularly tilted to increase the degrees of freedom available for aberration compensation. The lenses (24, 26, 28, 30, 32, 34, 36, 38, 40) included in the two relay groups are also designed to compensate for chromatic aberrations, thus allowing for the use of a broad bandwidth combiner and an operating bandwidth that encompasses substantially the full visible spectrum. The reduction in aberrations makes possible a significant increase in the system's field of view.
    • 其中以显着弯曲角度θ将图像投影到组合器表面(4)上的光学显示系统有效地补偿不对称像差,包括二次,线性和恒定二进制散光散光分量以及线性和恒定彗差分量。 正面和背面光学透镜继电器组(14,16)位于图像发生器(6,8)和组合器表面之间。 两个继电器组独立偏心并有角度倾斜以增加可用于像差补偿的自由度。 包括在两个继电器组中的透镜(24,26,28,30,32,34,36,38,40)也被设计为补偿色差,从而允许使用宽带宽组合器和工作带宽 其基本上涵盖了完整的可见光谱。 像差的减少使得系统的视野显着增加。
    • 6. 发明申请
    • COMPOSITE MIRROR AND FABRICATION METHOD WITH PRECIPITATED REFLECTIVE COATING
    • 具有降解反射涂层的复合反射镜和制造方法
    • WO1995002199A1
    • 1995-01-19
    • PCT/US1994007883
    • 1994-07-08
    • HUGHES TRAINING, INC.
    • HUGHES TRAINING, INC.DUGDALE, Jonathan, L.WALZER, Robert, U.
    • G02B05/08
    • G02B5/0808B29C37/0025B29D11/00596G02B5/08G02B5/10G02B5/26
    • A new mirror structure (18) is based upon a composite resin laminate. The mirror surface (20) is provided by a gel coat resin layer (8) that has been applied to a forming tool (2) which has an optical quality surface (4), and a shape complementary to the desired mirror shape. The gel coat resin layer is cured so that it replicates the optical quality surface of the forming tool, and a rigid composite backing (10, 12, 14, 16) is then built up over its rear surface. A reflective metal coating (34, 42) is applied to the mirror's resin surface, either with a conventional vacuum deposition or with a new process. In the new process the microporous resin surface (20) is first degreased and cleaned, followed by the application of a bonding material (28) which extends into the resin micropores (22), and a conventional Brashear process to precipitate a silver coating (34, 42) onto the resin. The metal coating can be applied either after the resin layup has been completed, or it can be integrated into the layup process.
    • 新的镜面结构(18)基于复合树脂层压板。 镜面(20)由涂布在具有光学质量表面(4)的成形工具(2)上的凝胶涂层树脂层(8)和与期望的镜面形状互补的形状提供。 凝胶涂层树脂层被固化,使得它复制成形工具的光学质量表面,然后在其后表面上建立刚性复合背衬(10,12,14,16)。 反射金属涂层(34,42)通过常规真空沉积或新工艺施加到镜子的树脂表面。 在新工艺中,首先将微孔树脂表面(20)进行脱脂和清洁,然后施加延伸到树脂微孔(22)中的粘合材料(28),并且使用常规的Brashear方法沉淀银涂层(34 ,42)到树脂上。 金属涂层可以在树脂铺层完成后施加,也可以整合到铺层工艺中。