A Pattern-Oriented Design Framework for Self-Adaptive Software Systems

2019 IEEE International Conference on Software Architecture Companion (ICSA-C) Pub Date : 2019-03-25 DOI:10.1109/ICSA-C.2019.00037

Paolo Arcaini, R. Mirandola, E. Riccobene, P. Scandurra

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引用次数: 9

Abstract

Multiple interacting MAPE-K loops, structured according to specific interaction patterns, have been introduced to design the adaptation logic in case of decentralized self-adaptive software systems. Designing such complex systems requires the availability of tools where MAPE patterns can be easily instantiated to provide fast architectural solutions, and the encoding towards specific domains is facilitated by automatic mapping of such pattern instantiations in domain-specific languages; validation and verification must be also supported to assure correct development of reliable systems. In this paper, we present a pattern-oriented framework, based on the MSL (MAPE Specification Language) modeling language, for the design of self-adaptive systems. The framework supports: (i) explicit modeling of the adaptation logic in terms of patterns of interactive MAPE-K loops; (ii) ability to tailor MSL models for a specific application domain and synthesize from them other modeling artifacts/code according to a target implementation context and scope (e.g., OpenHAB); (iii) ability to perform validation and verification of MSL models by means of the ASMETA formal framework.

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面向模式的自适应软件系统设计框架

引入了多个相互作用的MAPE-K循环，根据特定的交互模式构建MAPE-K循环，设计了分散自适应软件系统的自适应逻辑。设计这样复杂的系统需要可用的工具，在这些工具中，MAPE模式可以很容易地实例化，以提供快速的体系结构解决方案，并且通过在特定于领域的语言中自动映射这种模式实例，可以促进对特定领域的编码;还必须支持确认和验证，以确保正确开发可靠的系统。本文提出了一种基于MAPE规范语言(MSL)建模语言的面向模式的自适应系统设计框架。该框架支持:(i)根据交互式MAPE-K循环模式对自适应逻辑进行显式建模;(ii)为特定应用领域定制MSL模型的能力，并根据目标实现上下文和范围(例如，OpenHAB)从这些模型中合成其他建模工件/代码;(iii)通过ASMETA正式框架对MSL模型进行确认和验证的能力。

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2019 IEEE International Conference on Software Architecture Companion (ICSA-C)

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