S/T/A: Meta-Modeling Run-Time Adaptation in Component-Based System Architectures

2012 IEEE Ninth International Conference on e-Business Engineering Pub Date : 2012-09-09 DOI:10.1109/ICEBE.2012.21

Nikolaus Huber, A. Hoorn, A. Koziolek, Fabian Brosig, Samuel Kounev

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引用次数: 22

Abstract

Modern virtualized system environments usually host diverse applications of different parties and aim at utilizing resources efficiently while ensuring that quality-of-service requirements are continuously satisfied. In such scenarios, complex adaptations to changes in the system environment are still largely performed manually by humans. Over the past decade, autonomic self-adaptation techniques aiming to minimize human intervention have become increasingly popular. However, given that adaptation processes are usually highly system specific, it is a challenge to abstract from system details enabling the reuse of adaptation strategies. In this paper, we propose a novel modeling language (meta-model) providing means to describe system adaptation processes at the system architecture level in a generic, human-understandable and reusable way. We apply our approach to three different realistic contexts (dynamic resource allocation, software architecture optimization, and run-time adaptation planning) showing how the gap between complex manual adaptations and their autonomous execution can be closed by using a holistic model-based approach.

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S/T/A:基于组件的系统架构中的元建模运行时适应

现代虚拟化系统环境通常承载不同各方的各种应用程序，其目的是在确保持续满足服务质量需求的同时有效地利用资源。在这种情况下，对系统环境变化的复杂适应仍然主要由人类手动执行。在过去的十年中，旨在减少人为干预的自主自适应技术越来越受欢迎。然而，考虑到适应过程通常是高度系统特定的，从系统细节中抽象出来以实现适应策略的重用是一个挑战。在本文中，我们提出了一种新的建模语言(元模型)，以一种通用的、人类可理解的和可重用的方式来描述系统架构级的系统适应过程。我们将我们的方法应用于三种不同的现实环境(动态资源分配、软件架构优化和运行时适应计划)，展示了如何通过使用基于整体模型的方法来缩小复杂的手动适应与其自主执行之间的差距。

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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2012 IEEE Ninth International Conference on e-Business Engineering

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