Application-level fault tolerance in real-time embedded systems

Francisco Afonso, C. Silva, A. Tavares, S. Montenegro
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引用次数: 22

Abstract

Critical real-time embedded systems need to make use of fault tolerance techniques to cope with operation time errors, either in hardware or software. Fault tolerance is usually applied by means of redundancy and diversity. Redundant hardware implies the establishment of a distributed system executing a set of fault tolerance strategies by software, and may also employ some form of diversity, by using different variants or versions for the same processing. This work proposes and evaluates a fault tolerance framework for supporting the development of dependable applications. This framework is build upon basic operating system services and middleware communications and brings flexible and transparent support for application threads. A case study involving radar filtering is described and the framework advantages and drawbacks are discussed.
实时嵌入式系统的应用级容错
关键的实时嵌入式系统需要使用容错技术来处理硬件或软件上的操作时间错误。容错通常是通过冗余和分集来实现的。冗余硬件意味着建立一个分布式系统,通过软件执行一组容错策略,也可能采用某种形式的多样性,通过使用不同的变体或版本进行相同的处理。这项工作提出并评估了支持可靠应用程序开发的容错框架。该框架建立在基本操作系统服务和中间件通信的基础上,并为应用程序线程提供灵活和透明的支持。以雷达滤波为例,讨论了该框架的优缺点。
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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