A 3D online monitoring system

J. Takeno, T. Enaka, H. Sato
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引用次数: 1

Abstract

A newly developed 3D online monitoring system provides image quality equivalent to DVD and features a new image capture method that relatively reduces the visual burden compared with conventional stereo camera systems. The remote stereo vision system (RSVS) developed by the authors synthesizes right and left images taken by the stereo cameras into single image information and is compressed using the MPEG2 standard to reduce the bandwidth needed for transferring to remote observers via the Internet. The image quality is approximately 13 Mbps. With conventional image capture methods using stereo cameras arranged in parallel, parallax increases as the object gets closer to the cameras, which in turn creates eye strain for the observer. The optical axes of the right and left cameras intersect and the position of the intersection is adjusted when capturing an image to decrease the visual burden compared to conventional cross methods which generate geometrical distortion in the depth because the locus of the same parallax is circular (horopter). The new stereo camera image capture method developed by the authors is capable of correcting geometric distortion to reduce the visual burden and solve this problem.
一种三维在线监测系统
新开发的3D在线监控系统提供相当于DVD的图像质量,并具有与传统立体摄像机系统相比相对减轻视觉负担的新图像捕获方法。作者开发的远程立体视觉系统(RSVS)将立体摄像机拍摄的左右图像合成为单个图像信息,并使用MPEG2标准进行压缩,以减少通过互联网传输给远程观测者所需的带宽。图像质量约为13 Mbps。传统的图像捕捉方法使用平行布置的立体相机,视差随着物体靠近相机而增加,这反过来又给观察者造成眼睛疲劳。与传统的交叉方法相比,由于相同视差的轨迹是圆形的(horopter),传统的交叉方法会在深度产生几何畸变,因此在捕获图像时,左右相机的光轴相交并调整相交位置以减少视觉负担。本文提出的立体相机图像捕捉新方法能够校正几何畸变,减轻视觉负担,解决了这一问题。
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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