内源性与外源性自我管理

International Symposium on Software Engineering for Adaptive and Self-Managing Systems Pub Date : 2008-05-12 DOI:10.1145/1370018.1370027

Danny Weyns, Robrecht Haesevoets, Bart Van Eylen, Alexander Helleboogh, T. Holvoet, W. Joosen

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引用次数: 16

摘要

自我管理被认为是软件系统在运行时处理不断变化的需求的重要手段之一。自我管理赋予软件系统在没有人为干预的情况下调整其结构或行为的能力。提出了两种不同的自我管理方法:(1)系统组件根据需求的变化调整其结构或行为，并协同实现系统适应——这种方法可以被认为是内生的自我管理;(2)系统通过控制回路进行调整，即监控系统以保持系统的明确表示，并基于一组高级目标，调整系统结构或其行为——这种方法可以被认为是外源性自我管理。在本文中，我们介绍了一种结合了这两种方法的混合软件体系结构。多智能体系统架构允许智能体灵活地调整其行为以适应其上下文的变化，从而提供协作系统适应。然后，我们用分散的控制环扩展了多智能体系统体系结构，为系统增加了自修复特性。我们以智能监控交通堵塞为例进行说明。

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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Endogenous versus exogenous self-management

Self-management is considered as one of the crucial means for software systems to deal with changing demands at runtime. Self-management endows a software systems with the ability to adapt its structure or behavior without human intervention. Two different approaches are put forward for self-management: (1) the system components adapt their structure or behavior to changing requirements and cooperatively realize system adaptation - this approach can be considered as endogenous self-management; (2) the system is adapted through a control loop, i.e. the system is monitored to maintain an explicit representation of the system and based on a set of high-level objectives, the system structure or its behavior is adapted - this approach can be considered as exogenous self-management. In this paper, we introduce a hybrid software architecture that combines both approaches. A multi-agent system architecture allows agents to flexibly adapt their behavior to changes in their context providing cooperative system adaptation. Then, we extend the multi-agent system architecture with a decentralized control loop adding self-healing properties to the system. We use intelligent monitoring of traffic jams as an illustrative case.

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International Symposium on Software Engineering for Adaptive and Self-Managing Systems

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