Optimal Impulsive Control for Time Delay Systems

IF 2.2 2区数学 Q2 AUTOMATION & CONTROL SYSTEMS SIAM Journal on Control and Optimization Pub Date : 2024-07-10 DOI:10.1137/24m1632450

Giovanni Fusco, Monica Motta, Richard Vinter

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Abstract

SIAM Journal on Control and Optimization, Volume 62, Issue 4, Page 2012-2035, August 2024.
Abstract. We introduce discontinuous solutions to nonlinear impulsive control systems with state time delays in the dynamics and derive necessary optimality conditions in the form of a maximum principle for associated optimal control problems. In the case without delays, if the measure control is scalar valued, the corresponding discontinuous state trajectory, understood as a limit of classical state trajectories for absolutely continuous controls approximating the measure, is unique. For vector-valued measure controls, however, the limiting trajectory is not unique and a full description of the control must include additional “attached” controls affecting instantaneous state evolution at a discontinuity. For impulsive control systems with time delays we reveal a new phenomenon, namely, that the limiting state trajectory resulting from different approximations of a given measure control needs not to be unique, even in the scalar case. Correspondingly, our framework allows for additional attached controls, even though the measure control is scalar valued.

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时延系统的最佳脉冲控制

SIAM 控制与优化期刊》，第 62 卷第 4 期，第 2012-2035 页，2024 年 8 月。摘要我们引入了动力学中存在状态时间延迟的非线性脉冲控制系统的非连续解，并以最大原则的形式推导了相关最优控制问题的必要最优性条件。在无延迟的情况下，如果度量控制是标量值的，则相应的非连续状态轨迹（可理解为近似于度量的绝对连续控制的经典状态轨迹的极限）是唯一的。然而，对于矢量值控制，极限轨迹并不是唯一的，对控制的全面描述必须包括影响不连续处瞬时状态演变的附加 "附加 "控制。对于具有时间延迟的脉冲控制系统，我们揭示了一个新现象，即即使在标量情况下，由给定度量控制的不同近似值产生的极限状态轨迹也不一定是唯一的。相应地，即使措施控制是标量值，我们的框架也允许附加控制。

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来源期刊

SIAM Journal on Control and Optimization 数学-应用数学

CiteScore

4.00

自引率

4.50%

发文量

143

审稿时长

12 months

期刊介绍： SIAM Journal on Control and Optimization (SICON) publishes original research articles on the mathematics and applications of control theory and certain parts of optimization theory. Papers considered for publication must be significant at both the mathematical level and the level of applications or potential applications. Papers containing mostly routine mathematics or those with no discernible connection to control and systems theory or optimization will not be considered for publication. From time to time, the journal will also publish authoritative surveys of important subject areas in control theory and optimization whose level of maturity permits a clear and unified exposition. The broad areas mentioned above are intended to encompass a wide range of mathematical techniques and scientific, engineering, economic, and industrial applications. These include stochastic and deterministic methods in control, estimation, and identification of systems; modeling and realization of complex control systems; the numerical analysis and related computational methodology of control processes and allied issues; and the development of mathematical theories and techniques that give new insights into old problems or provide the basis for further progress in control theory and optimization. Within the field of optimization, the journal focuses on the parts that are relevant to dynamic and control systems. Contributions to numerical methodology are also welcome in accordance with these aims, especially as related to large-scale problems and decomposition as well as to fundamental questions of convergence and approximation.