Modelling and neural adaptive vibration control for three-dimensional Timoshenko beam with output restrictions and external disturbances

• Published in: International journal of systems science Vol. 52; no. 9; pp. 1850 - 1867
• Main Authors: Xing, Xueyan, Liu, Jinkun
• Format: Journal Article
• Language: English
• Published: London Taylor & Francis 04.07.2021; Taylor & Francis Ltd
• Subjects: Adaptive control; Boundary control; Control stability; Disturbances; Dynamic characteristics; Dynamic models; Dynamical systems; external disturbances; Liapunov functions; neural adaptive boundary control; Nonlinear dynamics; output restrictions; Parameter uncertainty; Partial differential equations; PDE modelling; Perturbation; Systems stability; Three-dimensional Timoshenko beam; Timoshenko beams; Vibration control; vibration suppression
• ISSN: 0020-7721; 1464-5319
• DOI: 10.1080/00207721.2021.1871676

In this paper, the dynamic modelling and adaptive boundary control of a three-dimensional Timoshenko beam are presented for vibration suppression. In order to ensure that no modal information is left out, partial differential equations (PDEs) are employed to describe the nonlinear dynamic characteristics of the system by applying the extended Hamilton's principle. Based on the established model, barrier Lyapunov functions (BLFs) are utilised for dealing with system output restrictions. For practical consideration, parameter uncertainties and external disturbances are also taken into account. Under the proposed neural adaptive control scheme, undesirable elastic vibration of the three-dimensional Timoshenko beam is restricted and constrained within given bounds even subject to external perturbations, without needing to know any system parameters. The system stability is proved by the Lyapunov's direct method. The control performance is verified via using numerical simulations.