Formal specification and verification of decentralized self-adaptive systems using symmetric nets

Camilli, Matteo, Capra, Lorenzo
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Abstract

Engineering distributed self-adaptive systems is challenging due to multiple interacting components, some of which monitor and possibly modify the behavior of managed components that operate in highly dynamic settings. Formalizing such systems having a decentralized adaptation control has been recognized as a hard task. In this article, we introduce a formal framework based on Symmetric Nets (a well-established subclass of Colored Petri nets) for modeling and analyzing distributed self-adaptive discrete-event systems. Even though Petri Nets represent a sound and expressive formal model of concurrency and distribution, they cannot specify in a natural way structural changes enacted by adaptation procedures. We overcome this limitation by means of a two-layer modeling approach that enables clear separation of concerns and allows multiple decentralized adaptation procedures to be specified, validated, and verified against formal requirements. Validation and verification techniques are supported by powerful off-the-shelf tools tailored to Symmetric Nets. A self-healing manufacturing system case study is used to show applicability, advantages, and shortcomings of the approach. In particular, complexity issues are thoroughly discussed and mitigated by adopting complementary approaches based on interleaving reduction and behavioral symmetries exploitation.

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使用对称网络的分散自适应系统的正式规范和验证
工程分布式自适应系统具有挑战性,因为有多个相互作用的组件,其中一些组件监视并可能修改在高度动态设置中运行的托管组件的行为。将这种具有分散适应控制的系统正式化是一项艰巨的任务。在本文中,我们介绍了一个基于对称网(有色Petri网的一个完善的子类)的形式化框架,用于建模和分析分布式自适应离散事件系统。尽管Petri网代表了并发性和分布的一种健全而富有表现力的正式模型,但它们不能以一种自然的方式指定由适应过程制定的结构变化。我们通过两层建模方法克服了这一限制,该方法支持清晰的关注点分离,并允许根据正式需求指定、验证和验证多个分散的适应过程。验证和验证技术由为对称网量身定制的功能强大的现成工具支持。通过一个自修复制造系统的案例研究,说明了该方法的适用性、优点和缺点。特别是,复杂性问题进行了深入的讨论,并通过采用基于交错约简和行为对称性利用的互补方法减轻了复杂性问题。
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