自适应系统集合中构型稳定性和变异性的评估

2021 IEEE International Conference on Autonomic Computing and Self-Organizing Systems Companion (ACSOS-C) Pub Date : 2021-09-01 DOI:10.1109/ACSOS-C52956.2021.00038

Sven Tomforde, Martin Goller

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引用次数: 3

摘要

自适应和自组织(SASO)系统通常由几个(半)自治子系统组成，这些子系统根据环境和内部观察改变其配置和系统结构。这些变更的总体目标主要有两个方面:提高预期的性能或目标的实现，并增加对干扰和不可预见事件的健壮性。为了建立整体系统行为的自我意识，作为引导控制干预的基础，我们研究了量化和评估系统属性的措施。本文介绍了一种基于对分布式子系统配置变量的外部系统范围观察来确定配置可变性和稳定性程度的新方法。我们分析了我们的指标在两种不同情况下的行为，并概述了适用性的可能优势。

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Assessment of Configuration Stability and Variability in Collections of Self-Adaptive Systems

Self-adaptive and self-organising (SASO) systems are typically composed of several (semi-)autonomous subsystems that alter their configuration and the system's structure in response to environmental and internal observations. The overall goal of these changes is mainly two-fold: improving the expected performance or goal achievement and providing increased robustness against disturbances and unforeseen events. In order to establish self-awareness of overall system behaviour as a basis for guided control intervention, we investigate measures to quantify and assess system properties. This paper introduces a novel approach to determine a degree of configuration variability and stability based on external, system-wide observation of configuration variables of the distributed subsystems. We analyse the behaviour of our metrics in two different scenarios and outline the possible advantages of the applicability.

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来源期刊

2021 IEEE International Conference on Autonomic Computing and Self-Organizing Systems Companion (ACSOS-C)

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