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Integral BLF-Based Adaptive Dynamic Event-Triggered Boundary Control for a Flexible Riser System

Xin-Yu Zhang, Xiangpeng Xie, Ju H. Park, Yajuan Liu, Jiayue Sun

2024IEEE Transactions on Cybernetics17 citationsDOI

Abstract

For the flexible riser systems modeled with partial differential equations (PDEs), this article explores the boundary control problem in depth for the first time using a dynamic event-triggered mechanism (DETM). Given the intrinsic time-space coupling characteristic inherent in PDE computations, implementing a state-dependent DETM for PDE-based flexible risers presents a significant challenge. To overcome this difficulty, a novel dynamic event-triggered control method is introduced for flexible riser systems, focusing on optimizing available control inputs. In order to save computational costs from the controller to the actuator, a dynamic event-triggered adaptive boundary controller is designed to effectively reduce boundary position vibrations. Additionally, considering external disturbances, an adaptive bounded compensation term is incorporated to counteract the influence of external disturbances on the system. Addressing boundary position constraints, a new integral barrier Lyapunov function (iBLF) tailored specifically for flexible riser systems is introduced, thereby alleviating conservatism in the controller design of flexible risers modeled by PDEs. At last, the validity of the proposed method is demonstrated through a simulation example.

Topics & Concepts

Control theory (sociology)Controller (irrigation)Boundary (topology)Computer scienceLyapunov functionControl engineeringPosition (finance)ActuatorAdaptive controlPartial differential equationEngineeringControl (management)MathematicsNonlinear systemPhysicsAgronomyBiologyMathematical analysisArtificial intelligenceEconomicsFinanceQuantum mechanicsStability and Controllability of Differential EquationsControl and Stability of Dynamical SystemsVibration and Dynamic Analysis