由漂浮物产生的浅水波浪:控制理论视角

IF 1 4区数学 Q1 MATHEMATICS

Mathematical Control and Related Fields Pub Date : 2021-08-11 DOI:10.3934/mcrf.2022048

Pei Su, M. Tucsnak

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引用次数: 1

摘要

我们考虑一个控制系统，描述水波与部分浸入的刚体约束的相互作用，只在垂直方向上移动。流体由浅水方程模拟。控制信号是作用在浮体上的垂直力。首先推导了水箱内流体系统的完整控制方程，并将其重新表述为一阶演化系统的初边值问题。然后围绕平衡态对方程进行线性化，并研究其适定性。最后重点讨论了线性系统的可达性和稳定性。我们的主要结果表明，当浮体位于槽体中央时，通过适当的控制力可以从平衡状态得到任何具有适当规律性的对称波。这特别意味着，我们可以将该系统投影到具有适当对称性的状态子空间上，从而得到一个近似可控且强稳定的约简系统。注意，一般来说，这个系统是不可控的(甚至近似可控)。

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Shallow water waves generated by a floating object: A control theoretical perspective

We consider a control system describing the interaction of water waves with a partially immersed rigid body constraint to move only in the vertical direction. The fluid is modeled by the shallow water equations. The control signal is a vertical force acting on the floating body. We first derive the full governing equations of the fluid-body system in a water tank and reformulate them as an initial boundary value problem of a first-order evolution system. We then linearize the equations around the equilibrium state and we study its well-posedness. Finally we focus on the reachability and stabilizability of the linear system. Our main result asserts that, provided that the floating body is situated in the middle of the tank, any symmetric waves with appropriate regularity can be obtained from the equilibrium state by an appropriate control force. This implies, in particular, that we can project this system on the subspace of states with appropriate symmetry properties to obtain a reduced system which is approximately controllable and strongly stabilizable. Note that, in general, this system is not controllable (even approximately).

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来源期刊

Mathematical Control and Related Fields MATHEMATICS, APPLIED-MATHEMATICS

CiteScore

2.50

自引率

8.30%

发文量

期刊介绍： MCRF aims to publish original research as well as expository papers on mathematical control theory and related fields. The goal is to provide a complete and reliable source of mathematical methods and results in this field. The journal will also accept papers from some related fields such as differential equations, functional analysis, probability theory and stochastic analysis, inverse problems, optimization, numerical computation, mathematical finance, information theory, game theory, system theory, etc., provided that they have some intrinsic connections with control theory.