Abstract: An autostereoscopic display system includes a lenticular lens display screen that projects a plurality of views of a scene from its front surface. A plurality of video projectors are disposed to the rear of the display screen and focus on a convergence point of the display screen's rear surface. Imaging computers drive the video projectors, each having a memory storing a scene to be displayed on the display screen. Each computer renders the scene from a preselected viewpoint that may be different from the viewpoints of the other imaging computers.
Abstract: A real time three dimensional multiple display imaging system has a central processing node and a plurality of remote, virtual camera processors. Each of the virtual cameras has its own predetermined viewpoint and is capable of displaying a scene into a virtual world from that viewpoint. The virtual world and the objects displayed in it are controlled by the central processing node. Geometric and textural data concerning the objects are stored in advance by memories associated with each one of the virtual cameras, thereby reducing the amount of communication bandwidth necessary for real-time animation.