Uncertainty on Discrete-Event System Simulation

IF 0.7 4区计算机科学 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS ACM Transactions on Modeling and Computer Simulation Pub Date : 2022-01-31 DOI:10.1145/3466169

Damián Vicino, Gabriel A. Wainer, Olivier Dalle

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引用次数: 1

Abstract

Uncertainty Propagation methods are well-established when used in modeling and simulation formalisms like differential equations. Nevertheless, until now there are no methods for Discrete-Dynamic Systems. Uncertainty-Aware Discrete-Event System Specification (UA-DEVS) is a formalism for modeling Discrete-Event Dynamic Systems that include uncertainty quantification in messages, states, and event times. UA-DEVS models provide a theoretical framework to describe the models’ uncertainty and their properties. As UA-DEVS models can include continuous variables and non-computable functions, their simulation could be non-computable. For this reason, we also introduce Interval-Approximated Discrete-Event System Specification (IA-DEVS), a formalism that approximates UA-DEVS models using a set of order and bounding functions to obtain a computable model. The computable model approximation produces a tree of all trajectories that can be traversed from the original model and some erroneous ones introduced by the approximation process. We also introduce abstract simulation algorithms for IA-DEVS, present a case study of UA-DEVS, its IA-DEVS approximation and, its simulation results using the algorithms defined.

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离散事件系统仿真中的不确定性

不确定性传播方法在微分方程等建模和仿真形式中得到了很好的应用。然而，目前还没有离散动力系统的求解方法。不确定性感知离散事件系统规范(UA-DEVS)是一种用于建模离散事件动态系统的形式化方法，该系统包括消息、状态和事件时间中的不确定性量化。UA-DEVS模型为描述模型的不确定性及其性质提供了一个理论框架。由于UA-DEVS模型可以包含连续变量和不可计算函数，因此它们的模拟可能是不可计算的。出于这个原因，我们还引入了区间近似离散事件系统规范(IA-DEVS)，这是一种使用一组顺序和边界函数来近似UA-DEVS模型以获得可计算模型的形式化方法。可计算模型近似产生了一棵由原始模型和一些由近似过程引入的错误轨迹组成的所有轨迹树。我们还介绍了IA-DEVS的抽象仿真算法，给出了一个UA-DEVS的案例研究，它的IA-DEVS近似以及使用所定义的算法的仿真结果。

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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.