自适应MAPE-K反馈回路的建模与分析

2015 IEEE/ACM 10th International Symposium on Software Engineering for Adaptive and Self-Managing Systems Pub Date : 2015-05-16 DOI:10.1109/SEAMS.2015.10

Paolo Arcaini, E. Riccobene, P. Scandurra

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引用次数: 188

摘要

MAPE-K(基于共享知识的监测-分析-计划-执行)反馈回路是自主和自适应系统中最具影响力的参考控制模型。本文提出了一个形式化建模、验证和验证分布式自适应系统的概念和方法框架。我们展示了如何在抽象状态机这样的抽象状态语言中自然地指定用于自适应的MAPE-K循环。特别地，我们利用多智能体抽象状态机的概念，通过MAPE计算来指定分散的自适应控制。我们支持验证和验证自适应场景的技术，并获得由MAPE-K循环实现的自适应逻辑正确性的反馈。特别地，提出了一种基于元属性的验证技术，允许在系统设计的早期阶段发现MAPE-K回路之间不必要的干扰。作为概念验证，我们对交通监控系统进行建模和分析。

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Modeling and Analyzing MAPE-K Feedback Loops for Self-Adaptation

The MAPE-K (Monitor-Analyze-Plan-Execute over a shared Knowledge) feedback loop is the most influential reference control model for autonomic and self-adaptive systems. This paper presents a conceptual and methodological framework for formal modeling, validating, and verifying distributed self-adaptive systems. We show how MAPE-K loops for self adaptation can be naturally specified in an abstract stateful language like Abstract State Machines. In particular, we exploit the concept of multi-agent Abstract State Machines to specify decentralized adaptation control by using MAPE computations. We support techniques for validating and verifying adaptation scenarios, and getting feedback of the correctness of the adaptation logic as implemented by the MAPE-K loops. In particular, a verification technique based on meta-properties is proposed to allow discovering unwanted interferences between MAPE-K loops at the early stages of the system design. As a proof-of concepts, we model and analyze a traffic monitoring system.

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2015 IEEE/ACM 10th International Symposium on Software Engineering for Adaptive and Self-Managing Systems

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