离散事件系统抽象状态机模型的合成模拟框架

IF 1.4 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING Formal Aspects of Computing Pub Date : 2024-03-16 DOI:10.1145/3652862
Silvia Bonfanti, Angelo Gargantini, Elvinia Riccobene, Patrizia Scandurra
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引用次数: 0

摘要

复杂系统需求建模通常需要在独立模型中指定系统组件,这些组件可以在相互隔离的情况下进行验证和检验,然后将所有组件的行为整合起来,以验证整个系统的运行。如果模型是可执行的,就像基于状态的形式化规范一样,那么协调模拟独立组件运行模型的引擎就非常有用。本文介绍了一种根据预定义的协调模式,对离散事件系统各独立组件的基于状态的模型进行协同仿真的方法。更确切地说,我们利用抽象状态机(ASM)形式方法作为基于状态的形式主义,并(i) 定义了一组操作符,用于组成通过 I/O 事件相互通信的 ASM;(ii) 提出了一个引擎,用于将 ASM 作为一个整体装配执行组成模拟。作为概念验证,我们使用了一组复杂度不断增加的离散事件系统模型示例来展示我们方法的应用,并评估其在协同模拟真实系统模型方面的有效性。
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A compositional simulation framework for Abstract State Machine models of Discrete Event Systems

Modeling complex system requirements often requires specifying system components in separate models, which can be validated and verified in isolation from each other, and then integrating all components’ behavior in order to validate the operation of the whole system. If models are executable, as for state-based formal specifications, engines to orchestrate the simulation of separate component operational models are extremely useful.

This paper presents an approach for the co-simulation, according to predefined orchestration schemas, of state-based models of separate components of a Discrete Event System. More precisely, we exploit the Abstract State Machine (ASM) formal method as state-based formalism, and we (i) define a set of operators to compose ASMs that communicate with each other through I/O events, and (ii) present an engine to execute the compositional simulation of the ASMs as a whole assembly.

As proof of concepts, we use a set of model examples of Discrete Event Systems of increasing complexity to show the application of our approach and to evaluate its effectiveness in co-simulating models of real systems.

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来源期刊
Formal Aspects of Computing
Formal Aspects of Computing 工程技术-计算机:软件工程
CiteScore
3.30
自引率
0.00%
发文量
17
审稿时长
>12 weeks
期刊介绍: This journal aims to publish contributions at the junction of theory and practice. The objective is to disseminate applicable research. Thus new theoretical contributions are welcome where they are motivated by potential application; applications of existing formalisms are of interest if they show something novel about the approach or application. In particular, the scope of Formal Aspects of Computing includes: well-founded notations for the description of systems; verifiable design methods; elucidation of fundamental computational concepts; approaches to fault-tolerant design; theorem-proving support; state-exploration tools; formal underpinning of widely used notations and methods; formal approaches to requirements analysis.
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