Self-Aware Optimization of Adaptation Planning Strategies

IF 2.2 4区计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE ACM Transactions on Autonomous and Adaptive Systems Pub Date : 2022-10-25 DOI:https://dl.acm.org/doi/10.1145/3568680

Veronika Lesch, Marius Hadry, Samuel Kounev, Christian Krupitzer

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Abstract

In today’s world, circumstances, processes, and requirements for software systems are becoming increasingly complex. In order to operate properly in such dynamic environments, software systems must adapt to these changes, which has led to the research area of Self-Adaptive Systems (SAS). Platooning is one example of adaptive systems in Intelligent Transportation Systems, which is the ability of vehicles to travel with close inter-vehicle distances. This technology leads to an increase in road throughput and safety, which directly addresses the increased infrastructure needs due to increased traffic on the roads. However, the No-Free-Lunch theorem states that the performance of one adaptation planning strategy is not necessarily transferable to other problems. Moreover, especially in the field of SAS, the selection of the most appropriate strategy depends on the current situation of the system. In this paper, we address the problem of self-aware optimization of adaptation planning strategies by designing a framework that includes situation detection, strategy selection, and parameter optimization of the selected strategies. We apply our approach on the case study platooning coordination and evaluate the performance of the proposed framework.

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适应性规划策略的自我意识优化

在当今世界，软件系统的环境、过程和需求正变得越来越复杂。为了在这样的动态环境中正常运行，软件系统必须适应这些变化，这导致了自适应系统(SAS)的研究领域。队列是智能交通系统中自适应系统的一个例子，它是车辆在车辆间距离较近的情况下行驶的能力。这项技术提高了道路吞吐量和安全性，直接解决了由于道路交通增加而增加的基础设施需求。然而，“无免费午餐”定理指出，一种适应规划策略的表现不一定可以转移到其他问题上。此外，特别是在SAS领域，选择最合适的策略取决于系统的现状。在本文中，我们通过设计一个包括情境检测、策略选择和所选策略参数优化的框架来解决适应性规划策略的自我意识优化问题。我们将我们的方法应用于队列协调的案例研究，并评估所提出框架的性能。

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来源期刊

ACM Transactions on Autonomous and Adaptive Systems 工程技术-计算机：理论方法

CiteScore

4.80

自引率

7.40%

发文量

审稿时长

>12 weeks

期刊介绍： TAAS addresses research on autonomous and adaptive systems being undertaken by an increasingly interdisciplinary research community -- and provides a common platform under which this work can be published and disseminated. TAAS encourages contributions aimed at supporting the understanding, development, and control of such systems and of their behaviors. TAAS addresses research on autonomous and adaptive systems being undertaken by an increasingly interdisciplinary research community - and provides a common platform under which this work can be published and disseminated. TAAS encourages contributions aimed at supporting the understanding, development, and control of such systems and of their behaviors. Contributions are expected to be based on sound and innovative theoretical models, algorithms, engineering and programming techniques, infrastructures and systems, or technological and application experiences.