A Technique for Specifying Dynamically Reconfigurable Embedded Systems

2005 IEEE Aerospace Conference Pub Date : 2005-03-05 DOI:10.1109/AERO.2005.1559558

O. Rawashdeh, J. Lumpp

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引用次数: 26

Abstract

This paper describes a framework for developing dynamically reconfiguring distributed embedded systems supporting graceful degradation. Graceful degradation allows embedded systems to reconfigure in response to faults, allowing the systems to reduce their level of service instead of suffering system failures. The approach is based on a graphical software specification technique. Software module dependency graphs are used to specify the interaction and interdependencies between software modules. Individual software modules can be specified with alternate implementations that may require different amounts of system resources. As failures occur, a system manager tracks system status and uses the dependency graphs to choose new system configurations to deploy. The proposed framework also supports traditional fault-tolerance techniques, such as fail-over programming, redundant calculations, and voting, making it an attractive alternative for the design of a wide range of embedded control applications. A high level description of the proposed system architecture as well as its fault detection and handling are presented followed by discussion of the software modeling

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一种动态可重构嵌入式系统的指定技术

本文描述了一个用于开发支持优雅降级的动态重配置分布式嵌入式系统的框架。优雅的降级允许嵌入式系统重新配置以响应故障，允许系统降低其服务水平，而不是遭受系统故障。该方法基于图形化软件规范技术。软件模块依赖关系图用于指定软件模块之间的交互和相互依赖关系。可以使用可能需要不同数量的系统资源的替代实现来指定单个软件模块。当发生故障时，系统管理器跟踪系统状态，并使用依赖关系图选择要部署的新系统配置。所提出的框架还支持传统的容错技术，如故障转移编程、冗余计算和投票，使其成为设计广泛的嵌入式控制应用程序的有吸引力的替代方案。对所提出的系统体系结构及其故障检测和处理进行了高层次的描述，然后讨论了软件建模

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2005 IEEE Aerospace Conference

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