一种用于实时障碍物检测的新型立体视觉结构

Proceedings 1st International Conference on Algorithms and Architectures for Parallel Processing Pub Date : 1995-04-19 DOI:10.1109/ICAPP.1995.472210

B. Arion, Y. Ni, F. Devos

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引用次数: 2

摘要

本文提出了一种新的立体结构来实现适合于实时环境中障碍物检测和避碰应用的立体视觉算法。该算法来源于Marr和Poggio(1979)提出的空间-频率分析，匹配原语来源于带通滤波后的立体对图像的局部极值提取。在这种实时内容中所要求的高处理速度以及算法的简单性和规律性都是VLSI实现的动力。因此，我们设计了一种类似视网膜的结构，具有与片上光电二极管矩阵传感器接口的在线并行处理单元。这种立体视网膜系统已经成功地模拟了高速公路上行驶的汽车的真实场景图像。设计并制作了一个128像素的直线CMOS视网膜。第一手实验结果是肯定的。

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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A novel stereovision architecture for real-time obstacle detection

This paper presents a novel stereo architecture to implement a stereovision algorithm suited to obstacle detection and collision avoidance applications in real-time environments. The algorithm is derived from the spatio-frequency analysis proposed by Marr and Poggio (1979), with the matching primitives resulting from a local extremum extraction in the band-pass filtered stereopair images. A VLSI implementation is motivated both by the high processing speed required in such a real-time content and by the simplicity and regularity of the algorithm. We have therefore designed a retina-like architecture, with an in-line parallel processing unit interfaced with an on-chip photodiode matrix sensor. This stereo retina system has been succesfully simulated with real scenes images taken from a running car on a highway. A 128-pixel line CMOS retina has been designed and fabricated. First-hand experiments are positive.<>

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Proceedings 1st International Conference on Algorithms and Architectures for Parallel Processing

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