Study of Algorithms of Real-Time Scheduling with Fault-Tolerance in Small Satellite On-Board Computer Systems

2006 6th World Congress on Intelligent Control and Automation Pub Date : 2006-10-23 DOI:10.1109/WCICA.2006.1712906

Pengfei Sa, Min Zhao, Yanfei Liu

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引用次数: 1

Abstract

Scheduling small satellite's mission must meet with two acquirements: one is that all real-time tasks must be complemented in time limit, the other is that it must have fault-tolerant capability. In this paper, an integration mission model of both periodical mission and non-periodical mission is built based on the characteristic of small satellite mission and a fault-tolerant scheduling algorithm of static scheduling and dynamic adjustment for small satellite is presented combined with mission allocate algorithm and partial dynamic scheduling algorithm of embedded processor. This algorithm combines both the technique of primary/backup copies and the Hopfield algorithm and sum up static assignment to planning and operation problem held in resource and time. Neural network algorithm is used in partial dynamic adjustment of non-periodical mission and backup mission copies that assures the reliability and temporal effectiveness of mission execution. Simulation results show that it achieves higher schedulability compared to some other methods. Further, in terms of scheduling length and load balancing, it is superior to that of conventional graphic algorithm

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小卫星星载计算机系统容错实时调度算法研究

小卫星任务调度必须满足两个条件:一是所有实时任务必须在时间限制内得到补充，二是必须具有容错能力。本文根据小卫星任务的特点，建立了周期任务和非周期任务的集成任务模型，并结合任务分配算法和嵌入式处理器的局部动态调度算法，提出了小卫星静态调度和动态调整的容错调度算法。该算法将主/备份副本技术与Hopfield算法相结合，将静态分配归结为资源和时间占用的规划和运行问题。采用神经网络算法对非周期性任务和备份任务副本进行局部动态调整，保证了任务执行的可靠性和时效性。仿真结果表明，与其他方法相比，该方法具有更高的可调度性。此外，在调度长度和负载均衡方面，该算法优于传统的图形算法

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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2006 6th World Congress on Intelligent Control and Automation

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