基于新型扩展混合控制器的分数阶延迟浊化器模型Hopf分岔控制

IF 2.9 2区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Match-Communications in Mathematical and in Computer Chemistry Pub Date : 2023-10-01 DOI:10.46793/match.91-2.367x
Changjin Xu, Wei Ou, Yicheng Pang, Qingyi Cui, Mati ur Rahman, Muhammad Farman, Shabir Ahmad, Anwar Zeb
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引用次数: 0

摘要

建立延迟动力学模型来描述不同化学物质的内在规律已成为近年来的一个热门课题。在本研究中,我们建立了一个新的分数阶延迟浊化器模型。利用拉普拉斯变换,得到了所建立的分数阶延迟浊化器模型的特征方程。通过选取时滞作为分岔参数,对所涉及的分数阶延迟浊化器模型相应特征方程的根进行求导,得到了一个新的关于稳定性和Hopf分岔的时滞依赖条件。利用一种新型的扩展混合控制器,成功地控制了分数阶延迟浊化器模型的稳定区域和Hopf分岔时间。揭示了时滞在稳定系统和控制Hopf分岔中的作用。通过Matlab实验验证了本文所获得的关键结果的合理性。本研究获得的结果是全新的,对控制各种化学物质的浓度具有重要的理论价值。
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Hopf Bifurcation Control of a Fractional-Order Delayed Turbidostat Model via a Novel Extended Hybrid Controller
Building delayed dynamical models to describe the inherent laws of different chemical matters has become a hot theme in recent years. In this current study, we set up a new fractional-order delayed turbidostat model. By using laplace transform, we obtain the characteristic equation of established fractional-order delayed turbidostat model. By selecting the delay as bifurcation parameter and exploring the roots of the corresponding characteristic equation of the involved fractional-order delayed turbidostat model, a novel delay-dependent condition on stability and Hopf bifurcation is acquired. Taking advantage of a novel extended hybrid controller, the stability region and the time of Hopf bifurcation of the established fractional-order delayed turbidostat model are successfully controlled. The role of delay in stabilizing system and controlling Hopf bifurcation is revealed. Matlab experiments are carried out to check the rationality of the acquired key outcomes in this article. The acquired outcomes of this study are completely new and own great theoretical value in dominating concentrations of various chemical matters.
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来源期刊
CiteScore
4.40
自引率
26.90%
发文量
71
审稿时长
2 months
期刊介绍: MATCH Communications in Mathematical and in Computer Chemistry publishes papers of original research as well as reviews on chemically important mathematical results and non-routine applications of mathematical techniques to chemical problems. A paper acceptable for publication must contain non-trivial mathematics or communicate non-routine computer-based procedures AND have a clear connection to chemistry. Papers are published without any processing or publication charge.
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