封闭受控秋千的滑动面

International Workshop on Symbolic-Numeric methods for Reasoning about CPS and IoT Pub Date : 2021-01-11 DOI:10.4204/EPTCS.331.4

L. Jaulin, B. Desrochers

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引用次数: 0

摘要

当对网络物理系统实施非连续控制器时，可能会发生闭环系统沿轨迹的演化不再是分段可微的情况，这主要是由于控制器内部的条件语句。这可能会导致一些不必要的抖动效果，可能会损坏系统。这种行为即使在模拟中也很难观察到。在本文中，我们提出了一种区间方法来描述对应于所有状态集合的滑动表面，使得状态轨迹可以在两个不同的行为之间无限跳跃。我们证明了厚集的最新概念将允许我们有效地计算给定类混合系统的滑动表面的外逼近，同时考虑所有集合隶属度的不确定性。以儿童秋千控制器的验证为例，说明了该方法的原理。

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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Enclosing the Sliding Surfaces of a Controlled Swing

When implementing a non-continuous controller for a cyber-physical system, it may happen that the evolution of the closed-loop system is not anymore piecewise differentiable along the trajectory, mainly due to conditional statements inside the controller. This may lead to some unwanted chattering effects than may damage the system. This behavior is difficult to observe even in simulation. In this paper, we propose an interval approach to characterize the sliding surface which corresponds to the set of all states such that the state trajectory may jump indefinitely between two distinct behaviors. We show that the recent notion of thick sets will allows us to compute efficiently an outer approximation of the sliding surface of a given class of hybrid system taking into account all set-membership uncertainties. An application to the verification of the controller of a child swing is considered to illustrate the principle of the approach.

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International Workshop on Symbolic-Numeric methods for Reasoning about CPS and IoT

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