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    • 1. 发明授权
    • Autostereoscopic projection system
    • 自动立体投影系统
    • US07938540B2
    • 2011-05-10
    • US12176947
    • 2008-07-21
    • Thomas E. Brentnall, IIIRichard B. Turner
    • Thomas E. Brentnall, IIIRichard B. Turner
    • G03B21/00
    • G03B21/00G02B27/2292H04N13/302H04N13/363
    • An apparatus projecting 3D autostereoscopic images viewers. The apparatus includes a projector array with projectors each receiving an input image such as digital video and projecting an image based on the input image. A beam splitter with first and second surfaces is positioned such that the projected images strike the first surface and a portion (e.g., 50 to 95 percent) is transmitted through the beam splitter toward a screen with a retroreflective surface. The retroreflective surface reflects the splitter-transmitted portion back along the same path but with increased brightness. The light reflected from the retroreflective surface strikes the second surface of the beam splitter and is reflected toward a display viewing zone provided at about the focal points of the reflected projectors. A 3D image is perceivable to a viewer who positions his eyes at or near any of two or more viewing locations proximate to the projection surface.
    • 投影3D自动立体图像观看者的设备。 该装置包括投影仪阵列,其具有每个接收诸如数字视频的输入图像和基于输入图像投影图像的投影仪。 具有第一和第二表面的分束器被定位成使得投影图像撞击第一表面,并且一部分(例如,50至95%)通过分束器朝向具有回射表面的屏幕传递。 回射表面沿着相同的路径反射分离器透射部分,但是具有增加的亮度。 从回射表面反射的光照射到分束器的第二表面,并且朝向设置在反射投影仪的焦点附近的显示观察区域反射。 三维图像可感知到将眼睛放置在靠近投影表面的两个或更多个观看位置中的任何一个或附近的观看者。
    • 3. 发明申请
    • PROJECTING AN ANIMATED OBJECT AND CONCURRENTLY MOVING THE OBJECT'S PROJECTION AREA THROUGH AN ANIMATION PATTERN
    • 通过动画图案投影动画对象并且一直移动对象的投影区域
    • US20110249201A1
    • 2011-10-13
    • US13165471
    • 2011-06-21
    • RICHARD B. TURNERDAVID F. BARNETTTHOMAS E. BRENTNALL, III
    • RICHARD B. TURNERDAVID F. BARNETTTHOMAS E. BRENTNALL, III
    • H04N9/31
    • G03B21/28
    • A projection assembly and projection method for accurately reproducing animated and live characters, objects, and effects. The projection assembly uses a high precision robotic mirror system to achieve very high levels of image resolution, brightness, and contrast. The assembly includes a projector receiving an input image stream, and a mirror assembly is positioned proximate to the projector outlet. The mirror assembly uses positionable mirrors to reflect the projected images onto a display surface at positions that define an animation pattern on the display surface for the projected image or character. The assembly includes a motor controller assembly positioning the mirrors based on position data defining the animation pattern. The projected images may be provided in a projection area that is a fraction of the size of the display surface, such that the resolution and output light of the projector are concentrated on the display surface within this projection area.
    • 一种投影组合和投影方法,用于准确地再现动画和活动的角色,物体和效果。 投影组件使用高精度机器人镜像系统来实现非常高水平的图像分辨率,亮度和对比度。 组件包括接收输入图像流的投影仪,并且反射镜组件靠近投影仪出口定位。 反射镜组件使用可定位镜将投影图像反映到在显示表面上为投影图像或字符定义动画图案的位置处的显示表面上。 组件包括基于定义动画图案的位置数据定位镜子的马达控制器组件。 投影图像可以设置在作为显示表面的尺寸的一部分的投影区域中,使得投影仪的分辨率和输出光集中在该投影区域内的显示表面上。
    • 4. 发明授权
    • Method and system for projecting an animated object and concurrently moving the object's projection area through an animation pattern
    • 用于投影动画对象并通过动画模式同时移动对象的投影区域的方法和系统
    • US08016434B2
    • 2011-09-13
    • US12133967
    • 2008-06-05
    • Richard B. TurnerDavid F. BarnettThomas E. Brentnall, III
    • Richard B. TurnerDavid F. BarnettThomas E. Brentnall, III
    • G03B21/28G03B21/00
    • G03B21/28
    • A projection assembly and projection method for accurately reproducing animated and live characters, objects, and effects. The projection assembly uses a high precision robotic mirror system to achieve very high levels of image resolution, brightness, and contrast. The assembly includes a projector receiving an input image stream, and a mirror assembly is positioned proximate to the projector outlet. The mirror assembly uses positionable mirrors to reflect the projected images onto a display surface at positions that define an animation pattern on the display surface for the projected image or character. The assembly includes a motor controller assembly positioning the mirrors based on position data defining the animation pattern. The projected images may be provided in a projection area that is a fraction of the size of the display surface, such that the resolution and output light of the projector are concentrated on the display surface within this projection area.
    • 一种投影组合和投影方法,用于准确地再现动画和活动的角色,物体和效果。 投影组件使用高精度机器人镜像系统来实现非常高水平的图像分辨率,亮度和对比度。 组件包括接收输入图像流的投影仪,并且反射镜组件靠近投影仪出口定位。 反射镜组件使用可定位镜将投影图像反映到在显示表面上为投影图像或字符定义动画图案的位置处的显示表面上。 组件包括基于定义动画图案的位置数据定位镜子的马达控制器组件。 投影图像可以设置在作为显示表面的尺寸的一部分的投影区域中,使得投影仪的分辨率和输出光集中在该投影区域内的显示表面上。
    • 5. 发明授权
    • Projecting an animated object and concurrently moving the object's projection area through an animation pattern
    • 投影动画对象,同时通过动画模式移动物体的投影区域
    • US08118434B2
    • 2012-02-21
    • US13165471
    • 2011-06-21
    • Richard B. TurnerDavid F. BarnettThomas E. Brentnall, III
    • Richard B. TurnerDavid F. BarnettThomas E. Brentnall, III
    • G03B21/00G03B21/28G03B21/32
    • G03B21/28
    • A projection assembly and projection method for accurately reproducing animated and live characters, objects, and effects. The projection assembly uses a high precision robotic mirror system to achieve very high levels of image resolution, brightness, and contrast. The assembly includes a projector receiving an input image stream, and a mirror assembly is positioned proximate to the projector outlet. The mirror assembly uses positionable mirrors to reflect the projected images onto a display surface at positions that define an animation pattern on the display surface for the projected image or character. The assembly includes a motor controller assembly positioning the mirrors based on position data defining the animation pattern. The projected images may be provided in a projection area that is a fraction of the size of the display surface, such that the resolution and output light of the projector are concentrated on the display surface within this projection area.
    • 一种投影组合和投影方法,用于准确地再现动画和活动的角色,物体和效果。 投影组件使用高精度机器人镜像系统来实现非常高水平的图像分辨率,亮度和对比度。 组件包括接收输入图像流的投影仪,并且反射镜组件靠近投影仪出口定位。 反射镜组件使用可定位镜将投影图像反映到在显示表面上为投影图像或字符定义动画图案的位置处的显示表面上。 组件包括基于定义动画图案的位置数据定位镜子的马达控制器组件。 投影图像可以设置在作为显示表面的尺寸的一部分的投影区域中,使得投影仪的分辨率和输出光集中在该投影区域内的显示表面上。
    • 6. 发明申请
    • AUTOSTEREOSCOPIC PROJECTION SYSTEM
    • 自动投影系统
    • US20100014053A1
    • 2010-01-21
    • US12176947
    • 2008-07-21
    • THOMAS E. BRENTNALL, IIIRICHARD B. TURNER
    • THOMAS E. BRENTNALL, IIIRICHARD B. TURNER
    • G03B21/00
    • G03B21/00G02B27/2292H04N13/302H04N13/363
    • An apparatus projecting 3D autostereoscopic images viewers. The apparatus includes a projector array with projectors each receiving an input image such as digital video and projecting an image based on the input image. A beam splitter with first and second surfaces is positioned such that the projected images strike the first surface and a portion (e.g., 50 to 95 percent) is transmitted through the beam splitter toward a screen with a retroreflective surface. The retroreflective surface reflects the splitter-transmitted portion back along the same path but with increased brightness. The light reflected from the retroreflective surface strikes the second surface of the beam splitter and is reflected toward a display viewing zone provided at about the focal points of the reflected projectors. A 3D image is perceivable to a viewer who positions his eyes at or near any of two or more viewing locations proximate to the projection surface.
    • 投影3D自动立体图像观看者的设备。 该装置包括投影仪阵列,其具有每个接收诸如数字视频的输入图像和基于输入图像投影图像的投影仪。 具有第一和第二表面的分束器被定位成使得投影图像撞击第一表面,并且一部分(例如,50至95%)通过分束器朝向具有回射表面的屏幕传递。 回射表面沿着相同的路径反射分离器透射部分,但是具有增加的亮度。 从回射表面反射的光照射到分束器的第二表面,并且朝向设置在反射投影仪的焦点附近的显示观察区域反射。 三维图像可感知到将眼睛放置在靠近投影表面的两个或更多个观看位置中的任何一个或附近的观看者。
    • 8. 发明申请
    • MOVING MIRROR PROJECTION AND ANIMATION SYSTEM
    • 移动镜子投影和动画系统
    • US20090303447A1
    • 2009-12-10
    • US12133967
    • 2008-06-05
    • RICHARD B. TURNERDAVID F. BARNETTTHOMAS E. BRENTNALL, III
    • RICHARD B. TURNERDAVID F. BARNETTTHOMAS E. BRENTNALL, III
    • G03B21/28
    • G03B21/28
    • A projection assembly and projection method for accurately reproducing animated and live characters, objects, and effects. The projection assembly uses a high precision robotic mirror system to achieve very high levels of image resolution, brightness, and contrast. The assembly includes a projector receiving an input image stream, and a mirror assembly is positioned proximate to the projector outlet. The mirror assembly uses positionable mirrors to reflect the projected images onto a display surface at positions that define an animation pattern on the display surface for the projected image or character. The assembly includes a motor controller assembly positioning the mirrors based on position data defining the animation pattern. The projected images may be provided in a projection area that is a fraction of the size of the display surface, such that the resolution and output light of the projector are concentrated on the display surface within this projection area.
    • 一种投影组合和投影方法,用于准确地再现动画和活动的角色,物体和效果。 投影组件使用高精度机器人镜像系统来实现非常高水平的图像分辨率,亮度和对比度。 组件包括接收输入图像流的投影仪,并且反射镜组件靠近投影仪出口定位。 反射镜组件使用可定位镜将投影图像反映到在显示表面上为投影图像或字符定义动画图案的位置处的显示表面上。 组件包括基于定义动画图案的位置数据定位镜子的马达控制器组件。 投影图像可以设置在作为显示表面的尺寸的一部分的投影区域中,使得投影仪的分辨率和输出光集中在该投影区域内的显示表面上。
    • 9. 发明授权
    • Panoramic motion picture camera and method
    • 全景电影摄像机和方法
    • US4602857A
    • 1986-07-29
    • US648239
    • 1984-07-30
    • Robert L. WoltzThomas E. Brentnall
    • Robert L. WoltzThomas E. Brentnall
    • G03B37/02G03B41/00
    • G03B37/02
    • A panoramic motion picture camera for continuously nonintermittently exposing a filmstrip in which a camera body assembly includes a stationary housing portion and a rotatable housing portion, the rotatable housing portion including an upper housing section and a lower housing section rotatable about an axis of rotation. Camera components including a lens means, a film gate, a main film sprocket, a film supply sprocket, and film idler spools providing a film path are enclosed within the upper housing section while a film supply reel and film take-up reel coaxially arranged and in spaced planar zones are contained within the lower housing section of the rotatable portion. Bidirectional film spools translate the filmstrip from the supply reel to the film path provided in the upper housing section and then to the film take-up reel at the lower part of the lower housing section. In the stationary housing portion motor drive means are provided for the main film sprocket, the supply and take-up reels, and the rotatable housing portion. Brake means is provided in the stationary housing portion for stopping rotation of the main film sprocket to cause relative movement of the filmstrip past the film gate of the lens means. A method of operating such a panoramic camera in which film is conserved when the camera is stopped by closing the film gate by actuation of a capping shutter, reversing the filmstrip to displace a portion of the exposed film backwardly of the film gate, and utilizing the displaced exposed film portion as a leader during the next start-up of the camera while the shutter remains closed, and opening the shutter after the displaced film portion passes the film gate. A novel film guide spool for directing a filmstrip in two directions for guiding film between two spaced planar zones.
    • PCT No.PCT / US83 / 01938 Sec。 1984年7月30日 102(e)日期1984年8月23日PCT提交1983年12月12日PCT全景电影摄像机,用于连续不间断地曝光胶片,其中相机主体组件包括固定壳体部分和可旋转壳体部分, 包括可绕旋转轴线旋转的上壳体部分和下壳体部分。 包括透镜装置,胶片闸门,主胶片链轮,胶片供给链轮和提供胶片路径的胶片惰轮卷轴的相机部件被包围在上壳体部分内,同时供纸卷轴和胶片卷取卷轴同轴布置, 间隔开的平坦区域被容纳在可旋转部分的下壳体部分内。 双向胶片卷轴将胶片从供纸卷轴转移到设置在上壳体部分中的胶片路径,然后到下壳体部分下部的胶片卷取卷轴。 在固定壳体部分中,电动机驱动装置设置用于主薄膜链轮,供应和卷取卷轴以及可转动的壳体部分。 制动装置设置在固定壳体部分中,用于阻止主胶片链轮的旋转,以使胶片相对于透镜装置的胶片门的相对移动。 一种操作这样的全景照相机的方法,其中当通过致动遮盖门关闭胶片门来停止照相机时,保护胶片,反转胶片以使胶片门向后的曝光胶片的一部分移位,并利用 在快门保持关闭的同时在相机的下一次启动期间,移动的曝光胶片部分作为前导,并且在移动的胶片部分通过胶片门之后打开快门。 一种用于在两个方向上引导胶片以在两个间隔开的平面区域之间引导胶片的新颖的胶片引导卷轴。