Real-Time Holographic 3D Imaging Based On Multiplexng Technqiues And Optoelectronics Holograms

Elmar Schulze
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引用次数: 2

Abstract

Multiplexing techniques can be applied in 3D imaging to record the shape of 3D objects on 2D pictures taken from different directions. These pictures may be obtained from still cameras, TV-cameras or medical imaging systems such as computer-tomographs. A simulation of 3D objects by 2D perspective views generated by means of computer graphic methods is possible too. From these data true 3D images can be procreated by hologram synthesizing techniques. In this paper multiplexing techniques for recording of 3D objects and for synthesizing of holograms are discussed. Proposals are given for recording of 3D scenes by large diameter telescope-type imaging systems applying multiple lens cameras. Suggestions are made for an optoelectronic synthesis of still and animated holograms based on photo emulsions and optoelectronic holograms respectively. Two synthesizing methods are described: an optical synthesis utilizing 2D perspective views and a synthesis based on calculating and writing of the interference pattern onto the hologram. The 2D pictures and interference pattern are procreated by optoelectronic light valves. The hologram plate consists of photoemulsions for still holograms. For animated holograms very-high-resolution optoelectronic spatial light modulators are considered. Possible types of light modulators and light valves which can be used for the real-time holographic imaging system are discussed. It is shown that animated holographic 3D images can be obtained, if the optoelectronic light modulators are available.
基于多路复用技术和光电子全息图的实时全息三维成像
多路复用技术可以应用于三维成像,将三维物体的形状记录在从不同方向拍摄的二维图像上。这些图像可以从静止摄像机、电视摄像机或医学成像系统(如计算机断层扫描)获得。通过计算机图形方法生成的2D透视视图来模拟3D对象也是可能的。利用这些数据,全息图合成技术可以生成真正的三维图像。本文讨论了用于三维物体记录和全息图合成的多路复用技术。提出了采用多镜头相机的大口径望远镜式成像系统记录三维场景的方案。提出了基于光乳剂和光电全息图的光电合成静态全息图和动态全息图的建议。描述了两种合成方法:利用二维透视图的光学合成和基于计算和写入干涉图案到全息图上的合成。利用光电光阀产生二维图像和干涉图样。全息底片由用于静止全息图的光乳剂组成。对于动画全息图,考虑了高分辨率光电空间光调制器。讨论了可用于实时全息成像系统的光调制器和光阀的可能类型。结果表明,利用光电光调制器可以获得动态全息三维图像。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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