污染环境中反应扩散群体模型的滑动模式动力学和近优控制研究

IF 2.5 3区 计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS
An Ma , Jing Hu , Ming Ye , Qimin Zhang
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引用次数: 0

摘要

本文提出了一个针对污染环境开发的反应-扩散种群模型,并研究了不同控制措施对种群-毒物动态的影响。以毒物浓度作为是否实施控制措施的参考,研究了滑模动力学。我们讨论了每个子系统的动力学行为,结果表明模型解最终会接近两个地方性均衡或不连续面上的滑动均衡。此外,我们还提出了近优控制问题,即在降低毒物浓度的同时使控制成本最小化。利用埃克兰德变分原理和哈密顿函数建立了近优的充分条件和必要条件。数值模拟对理论结果进行了说明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of sliding mode dynamics and near-optimal controls for a reaction–diffusion population model in a polluted environment

In this paper, we present a reaction–diffusion population model developed for a polluted environment, and investigate the impact of different control measures on population-toxicant dynamics. Toxicant concentrations is taken as the reference to determine whether to implement control measures, and sliding mode dynamics are studied. The dynamical behaviors of each subsystem are discussed, and results show that model solutions ultimately approach either two endemic equilibria or the sliding equilibrium on a surface of discontinuity. Furthermore, we formulate the near-optimal control problem by minimizing the control cost while reducing the toxicant concentration. The sufficient and necessary conditions for the near-optimality are established using Ekeland’s variational principle and Hamiltonian function. The theoretical results are illustrated by numerical simulations.

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来源期刊
European Journal of Control
European Journal of Control 工程技术-自动化与控制系统
CiteScore
5.80
自引率
5.90%
发文量
131
审稿时长
1 months
期刊介绍: The European Control Association (EUCA) has among its objectives to promote the development of the discipline. Apart from the European Control Conferences, the European Journal of Control is the Association''s main channel for the dissemination of important contributions in the field. The aim of the Journal is to publish high quality papers on the theory and practice of control and systems engineering. The scope of the Journal will be wide and cover all aspects of the discipline including methodologies, techniques and applications. Research in control and systems engineering is necessary to develop new concepts and tools which enhance our understanding and improve our ability to design and implement high performance control systems. Submitted papers should stress the practical motivations and relevance of their results. The design and implementation of a successful control system requires the use of a range of techniques: Modelling Robustness Analysis Identification Optimization Control Law Design Numerical analysis Fault Detection, and so on.
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