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    • 63. 发明申请
    • Heads-up display for propeller-driven aircraft
    • 螺旋桨驱动飞机的俯视显示
    • US20040183696A1
    • 2004-09-23
    • US10800491
    • 2004-03-15
    • SRI International
    • Thomas P. Low
    • G08B021/00
    • G09F21/10G01C23/00G02B27/0101G02B27/2285G02B2027/0118G09F9/33G09F9/37G09F13/30
    • Described is a heads-up display system for an aircraft having a rotating propeller within view of at least one occupant of the aircraft. The heads-up display system comprises a plurality of light-emitting elements disposed on a side of a propeller blade substantially facing at least one occupant of the aircraft. A graphics generator turns one or more of the light-emitting elements on the side of the propeller blade on and off in accordance with the rotation of the propeller to produce a graphical image that appears to at least one occupant of the aircraft to be superimposed on a background. The graphical image can be produced to conform to an object in the background upon which the graphical image is superimposed.
    • 描述了一种用于具有从飞行器的至少一个乘客视角看的旋转螺旋桨的飞机的平视显示系统。 平视显示系统包括设置在基本上面向飞行器的至少一个乘员的螺旋桨叶片的一侧上的多个发光元件。 图形发生器根据螺旋桨的旋转将螺旋桨叶片的一侧上的一个或多个发光元件打开和关闭,以产生出现在飞行器的至少一个乘客上的图形图像以被叠加在 一个背景 可以产生图形图像以符合叠加了图形图像的背景中的对象。
    • 66. 发明申请
    • Projection screen for multiplanar volumetric display
    • 多平面体积显示的投影屏幕
    • US20010045920A1
    • 2001-11-29
    • US09828501
    • 2001-04-06
    • Deirdre M. HallRick K. DorvalGregg E. Favalora
    • G09G003/00
    • G03B25/00G02B27/2285H04N13/189H04N13/286H04N13/363H04N13/393H04N13/398
    • The invention features a spinning screen assembly that incorporates a thin projection screen held in place by a hollow transparent mount. The mount may be spherical in overall shape. A projection system projects portions of a 3-D image onto the projection screen. A control electronics subsystem coordinates other subsystems, including the projection system and a source of image data. Persistence of vision causes a viewer to perceive a volumetric image from a series of projections. The thinness of the projection screen reduces visual dead zones. Enclosing the projection screen within the screen assembly reduces the air resistance that the thin screen is exposed to during rotation. In a further embodiment, a stationary hemispherical transparent dome covers the spinning screen assembly.
    • 本发明的特征在于一种旋转筛组件,其包括通过中空透明支架保持在适当位置的薄投影屏。 安装座可以是球形的整体形状。 投影系统将3-D图像的部分投射到投影屏幕上。 控制电子子系统协调其他子系统,包括投影系统和图像数据源。 视觉的持续性使得观察者感知到来自一系列投影的体积图像。 投影屏幕的薄度可以减少视觉死区。 将投影屏幕封闭在屏幕组件中可减少旋转过程中薄屏幕暴露的空气阻力。 在另一个实施例中,静止的半球形透明圆顶覆盖纺丝筛组件。
    • 67. 发明授权
    • Three-dimensional image display device
    • 三维图像显示装置
    • US5907312A
    • 1999-05-25
    • US695389
    • 1996-08-09
    • Shunichi SatoKoushi KoideYukitaka Shimizu
    • Shunichi SatoKoushi KoideYukitaka Shimizu
    • G03B35/18G02B27/22G03C9/08G03H1/24G09F9/00G09F19/18H04N13/04G02F1/1335
    • G02B27/2285G09F19/18G02B5/32G03H1/202G03H2001/0439G03H2001/306G03H2227/03
    • The invention is intended to represent a three-dimensional image of an object just as observable from a viewing point, allowing representation of a semi-transparent image on the condition that its rear side may not transparently visible. A three-dimensional image display device according to the present invention is composed essentially of a laser light source, a modulator, an X-Y deflector, a control computer, an image data memory, a moving flat screen and a projection lens. The screen is constructed of a large number of pixels (e.g., 100 by 100 pixels) and each of the pixels is composed of a large number of diffraction elements (e.g., 5 by 5 diffraction elements). On the basis of three-dimensional image data and desired view-point data, both control and image-data preparing computers perform ON-OFF control of laser radiation onto diffraction elements having different reflection directions to determine displaying condition of a pixel composed of said diffraction elements.
    • 本发明旨在从观察点表示对象的三维图像,允许在其后侧可能不透明地可见的条件下表示半透明图像。 根据本发明的三维图像显示装置主要由激光源,调制器,X-Y偏转器,控制计算机,图像数据存储器,移动平板屏幕和投影透镜组成。 屏幕由大量的像素构成(例如,100×100像素),并且每个像素由大量的衍射元件(例如5×5个衍射元件)构成。 基于三维图像数据和期望的视点数据,控制和图像数据准备计算机对激光辐射进行不同反射方向的衍射元件的ON-OFF控制,以确定由所述衍射构成的像素的显示状态 元素。