A State Machine-Based Approach for Reliable Adaptive Distributed Systems

2010 Seventh IEEE International Conference and Workshops on Engineering of Autonomic and Autonomous Systems Pub Date : 2010-03-22 DOI:10.1109/EASE.2010.19

L. Mostarda, Daniel Sykes, Naranker Dulay

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引用次数: 4

Abstract

Adaptive systems are often composed of distributed components that co-operate in order to achieve a global behaviour, and yet many approaches for adaptive systems are centralised or make strong assumptions about the distributed aspects of the problem. However, if insufficient attention is paid to the problem of decentralisation, especially in the difficult and unpredictable environments in which adaptive systems are commonly deployed, it can introduce inefficiencies, and even cause catastrophic failure. An adaptive system is either required to implement subtle synchronisation and consensus protocols or accept certain types of failure from which the system cannot recover. A major goal of our research is to facilitate the development of adaptive, reliable and distributed applications. We provide a framework in which a state machine language is used to define logically centralised behaviour. This is automatically translated into a reliable and efficient distributed implementation that enforces the correct co-ordination in the presence of unpredictable failures.

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基于状态机的可靠自适应分布式系统研究

自适应系统通常由分布式组件组成，这些组件相互协作以实现全局行为，然而许多自适应系统的方法都是集中的，或者对问题的分布式方面做出了强有力的假设。然而，如果对去中心化问题的关注不够，特别是在通常部署自适应系统的困难和不可预测的环境中，它可能会导致效率低下，甚至导致灾难性的失败。自适应系统要么需要实现微妙的同步和共识协议，要么需要接受系统无法恢复的某些类型的故障。我们研究的一个主要目标是促进自适应、可靠和分布式应用程序的开发。我们提供了一个框架，在这个框架中使用状态机语言来定义逻辑集中的行为。这将自动转换为可靠且高效的分布式实现，在出现不可预测的故障时强制执行正确的协调。

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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2010 Seventh IEEE International Conference and Workshops on Engineering of Autonomic and Autonomous Systems

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