利用DynIbex基于区间的zsamus IVPs仿真

Acta Cybern. Pub Date : 2020-08-19 DOI:10.14232/actacyb.285246

Jason T. Brown, François Pessaux

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引用次数: 0

摘要

连续时间动力系统建模是一项复杂的任务。幸运的是，存在一些专门的编程语言来简化这项工作。Zelus就是这样一种语言，它生成一个可执行的仿真程序，可以用来研究被建模系统的行为。然而，这种模拟不能处理系统某些参数的不确定性。这使得有必要运行多个模拟来检查系统是否满足不确定性范围内所有值的特定要求(例如安全性)。基于间隔的保证集成方法为这个问题提供了解决方案。DynIbex库提供了这样的方法，但是它需要用通用编程语言(c++)对系统进行手动编码。本文介绍了Zelus编译器的扩展，以使用DynIbex生成基于间隔的ivp保证模拟。这个扩展是保守的，因为它不会破坏现有的编译工作流程。

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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Interval-Based Simulation of Zélus IVPs using DynIbex

Modeling continuous-time dynamical systems is a complex task. Fortunately some dedicated programming languages exist to ease this work. Zelus is one such language that generates a simulation executable which can be used to study the behavior of the modeled system. However, such simulations cannot handle uncertainties on some parameters of the system. This makes it necessary to run multiple simulations to check that the system fulfills particular requirements (safety for instance) for all the values in the uncertainty ranges. Interval-based guaranteed integration methods provide a solution to this problem. The DynIbex library provides such methods but it requires a manual encoding of the system in a general purpose programming language (C++). This article presents an extension of the Zelus compiler to generate interval-based guaranteed simulations of IVPs using DynIbex. This extension is conservative since it does not break the existing compilation workflow.

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Acta Cybern.

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