用Flowpipe构造优化一类受限随机混合自动机的可达性概率

IF 0.7 4区计算机科学 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

ACM Transactions on Modeling and Computer Simulation Pub Date : 2023-07-11 DOI:10.1145/3607197

Carina Pilch, Stefan Schupp, Anne Remke

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引用次数: 3

摘要

随机混合自动机（SHA）是评估关键基础设施可靠性和安全性的有力工具。然而，在许多纯混合模型中存在的不确定性的解决方案，通常只在SHA中被隐含地考虑。相反，本文提出了计算具有紧急转移和随机时钟的奇异自动机的最大和最小可达性概率的算法，这些奇异自动机遵循任意连续概率分布。我们借用了混合系统可达性分析中的一种众所周知的方法，即流管构造，然后将其扩展到在存在随机变量的情况下优化不确定性。首先，从计算的流管道中提取确保特定目标状态可达性的随机时钟的估值，其次，通过对这些估值进行积分来计算可达性概率。我们使用基于集合的方法计算历史相关的预言和非预言调度器的最大和最小概率。详细讨论了以HyPro库为特征的实现以及该方法的复杂性。两个以不确定性选择为特征的案例研究表明了该方法的可行性。

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Optimizing reachability probabilities for a restricted class of Stochastic Hybrid Automata via Flowpipe-Construction

Stochastic hybrid automata (SHA) are a powerful tool to evaluate the dependability and safety of critical infrastructures. However, the resolution of nondeterminism, which is present in many purely hybrid models, is often only implicitly considered in SHA. This paper instead proposes algorithms for computing maximum and minimum reachability probabilities for singular automata with urgent transitions and random clocks which follow arbitrary continuous probability distributions. We borrow a well-known approach from hybrid systems reachability analysis, namely flowpipe construction, which is then extended to optimize nondeterminism in the presence of random variables. Firstly, valuations of random clocks which ensure reachability of specific goal states are extracted from the computed flowpipes and secondly, reachability probabilities are computed by integrating over these valuations. We compute maximum and minimum probabilities for history-dependent prophetic and non-prophetic schedulers using set-based methods. The implementation featuring the library HyPro and the complexity of the approach are discussed in detail. Two case studies featuring nondeterministic choices show the feasibility of the approach.

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来源期刊

ACM Transactions on Modeling and Computer Simulation 工程技术-计算机：跨学科应用

CiteScore

2.50

自引率

22.20%

发文量

审稿时长

>12 weeks

期刊介绍： The ACM Transactions on Modeling and Computer Simulation (TOMACS) provides a single archival source for the publication of high-quality research and developmental results referring to all phases of the modeling and simulation life cycle. The subjects of emphasis are discrete event simulation, combined discrete and continuous simulation, as well as Monte Carlo methods. The use of simulation techniques is pervasive, extending to virtually all the sciences. TOMACS serves to enhance the understanding, improve the practice, and increase the utilization of computer simulation. Submissions should contribute to the realization of these objectives, and papers treating applications should stress their contributions vis-á-vis these objectives.