基于硅视网膜的异步时序数据处理负载均衡方法

2010 36th EUROMICRO Conference on Software Engineering and Advanced Applications Pub Date : 2010-09-01 DOI:10.1109/SEAA.2010.12

C. Sulzbachner, J. Kogler

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引用次数: 4

摘要

本文提出了一种基于硅视网膜技术的计算机视觉应用负载平衡方法。硅视网膜技术是一种源于人类视觉系统的新型仿生模拟传感器。与提供固定帧率捕获的帧信息的传统成像仪相比，硅视网膜成像仪仅提供场景中强度变化的像素信息。没有强度变化的大量像素既不需要传输也不需要处理。由于这些特殊的特性，成像仪提供异步数据，数据速率最高可达每通道每秒6M事件(Meps)，时间分辨率为10ns。采用一种由用于数据采集和负载平衡的单核处理器和用于数据处理的多核处理器组成的分布式嵌入式系统。我们讨论了硅视网膜技术，正在使用的计算机视觉算法的原理，以及负载平衡方法。

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 Load Balancing Approach for Silicon Retina Based Asynchronous Temporal Data Processing

In this paper we present a load balancing approach for Silicon Retina technology based computer vision applications. The Silicon Retina technology is a new kind of bio-inspired analogue sensor that is derived from the human vision system. In comparison to conventional imagers that provide frame information captured by a fixed frame-rate, Silicon Retina imagers only provide information of pixels with variations of intensity in a scene. The high amount of pixels without intensity variations need neither be transmitted nor processed. Due to these special characteristics, the imager delivers asynchronous data with data-rates up to a peak of 6M events per second (Meps) per channel and a time resolution of 10ns. A distributed embedded system consisting of a single-core processor for data acquisition and load balancing and a multi-core processor for data processing is used. We discuss both the Silicon Retina technology, the principles of the computer vision algorithms being used, and the load balancing approach.

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2010 36th EUROMICRO Conference on Software Engineering and Advanced Applications

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