Model-based robot vision VLSI processor for 3-D instrumentation and object recognition

Proceedings of IECON '93 - 19th Annual Conference of IEEE Industrial Electronics Pub Date : 1993-11-15 DOI:10.1109/IECON.1993.339334

Y. Sasaki, M. Kameyama

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Abstract

In robot vision system, enormously large computation power is required to perform three-dimensional (3-D) instrumentation and object recognition. Moreover, many kinds of complex operations are usually required to make accurate instrumentation and recognition. In this paper, a model-based robot vision (MBRV) algorithm and its VLSI processor architecture are proposed for 3-D instrumentation and object recognition. The input image is compared with the two-dimensional (2-D) silhouette images which are generated from the 3-D object models by means of perspective projection. Because the MBRV algorithm always gives the candidates for the accurate instrumentation and recognition result with simple and regular procedures, it is suitable for the implementation of the VLSI processor. Highly parallel VLSI architecture for the algorithm is also proposed in the VLSI processor to reduce the latency equivalent to the time lapse between arrival of the input image and appearance of the result for the 3-D instrumentation. As a result, the latency of the VLSI processor becomes 10000 times faster than that of a 28.5 MIPS workstation.<>

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基于模型的机器人视觉VLSI处理器，用于三维仪器和物体识别

在机器人视觉系统中，进行三维测量和物体识别需要巨大的计算能力。此外，通常需要进行多种复杂的操作才能进行准确的测量和识别。本文提出了一种基于模型的机器人视觉(MBRV)算法及其VLSI处理器架构，用于三维仪器仪表和物体识别。将输入图像与三维物体模型通过透视投影生成的二维轮廓图像进行比较。由于MBRV算法总是能以简单规则的程序给出准确的检测和识别结果，因此适合在VLSI处理器上实现。该算法还在VLSI处理器中提出了高度并行的VLSI架构，以减少相当于3-D仪器输入图像到达和结果出现之间的时间间隔的延迟。因此，VLSI处理器的延迟比28.5 MIPS工作站快10000倍

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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Proceedings of IECON '93 - 19th Annual Conference of IEEE Industrial Electronics

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