基于有源像素传感器和可编程神经处理器的低功耗智能视觉系统

Proceedings International Conference on Computer Design VLSI in Computers and Processors Pub Date : 1997-10-12 DOI:10.1109/ICCD.1997.628905

W. Fang, Guang Yang, B. Pain, B. Sheu

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引用次数: 6

摘要

提出了一种基于大幅面(目前为1k /spl次/ 1k)有源像素传感器(APS)和可编程神经处理器集成的低功耗智能视觉系统，用于快速视觉应用。通过一个由APS传感器、智能图像窗口处理器和神经处理器组成的系统设计，展示了构建低功耗智能视觉系统的概念。本文还证明了采用标准CMOS技术将整个智能视觉系统集成到单个芯片上是可行的。这种片上智能视觉系统可以利用光学和电子学的综合优势，在焦平面上实现超高速的智能感官信息处理和分析。该系统将支持许多应用，包括机器人和机器视觉、制导和导航、汽车应用和消费电子产品。未来的应用还将包括科学传感器，如适用于美国宇航局深空和行星航天器中使用的高度集成成像系统的科学传感器。

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 low power smart vision system based on active pixel sensor integrated with programmable neural processor

A low power smart vision system based on a large format (currently 1 K/spl times/1 K) active pixel sensor (APS) integrated with a programmable neural processor for fast vision applications is presented. The concept of building a low power smart vision system is demonstrated by a system design which is composed with an APS sensor, a smart image window handler, and a neural processor. The paper also shows that it is feasible to put the whole smart vision system into a single chip in a standard CMOS technology. This smart vision system on-a-chip can take the combined advantages of the optics and electronics to achieve ultra-high-speed smart sensory information processing and analysis at the focal plane. The proposed system will enable many applications including robotics and machine vision, guidance and navigation, automotive applications, and consumer electronics. Future applications will also include scientific sensors such as those suitable for highly integrated imaging systems used in NASA deep space and planetary spacecraft.

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Proceedings International Conference on Computer Design VLSI in Computers and Processors

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