Exponential Stabilization of Reaction-Diffusion Systems Via Intermittent Boundary Control
成果类型:
Article
署名作者:
Liu, Xiao-Zhen; Wu, Kai-Ning; Li, Ze-Tao
署名单位:
Harbin Institute of Technology
刊物名称:
IEEE TRANSACTIONS ON AUTOMATIC CONTROL
ISSN/ISSBN:
0018-9286
DOI:
10.1109/TAC.2021.3100289
发表日期:
2022
页码:
3036-3042
关键词:
control theory
STABILITY
observers
Symmetric matrices
Aerospace electronics
actuators
Synchronization
exponential stability
intermittent boundary control
observer
reaction-diffusion systems (RDSs)
robust stability
摘要:
Exponential stabilization is studied for reaction-diffusion systems (RDSs) with a reaction term satisfying the global Lipschitz condition by means of intermittent boundary control.First, a state-dependent intermittent boundary controller is designed when system states are available. By employing the spatial integral functional method and Poincare's inequality, a sufficient condition ensuring exponential stability of RDSs is presented. Then, an observer is presented to estimate the system states based on boundary output, when the information of system states is not fully accessible. An observer-based intermittent boundary controller is provided aiming to stabilize the considered RDSs based on the designed observer. Furthermore, a robust observer-based intermittent boundary controller is proposed to ensure the exponential stability for RDSs with uncertainties. Examples are given to illustrate the effectiveness of results.
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