Stabilisation of Timoshenko beam system with a tip payload under the unknown boundary external disturbances

Liu, Dongyi; Zhang, Liping; Xu, Genqi

doi:10.1080/00207179.2015.1020452

Cited by 18 publications

(3 citation statements)

References 20 publications

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“…Besides, the local enlarged images located in the lower right corner of Fig. 3 indicate that the control law (18) can obviously attenuate the chattering phenomenon, compared with the SMC law in [33]. This illustrates the advantages of ADRC method.…”

Section: Numerical Simulationmentioning

confidence: 79%

Stabilization of a Timoshenko Beam With Disturbance Observer‐Based Time Varying Boundary Controls

Liu

Shang

2017

Asian Journal of Control

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This paper is concerned with the boundary feedback stabilization for a Timoshenko beam with external disturbances in the boundary inputs. Based on the idea of active disturbance rejection controls, extended state observers with the time‐varying gains are designed to estimate disturbances and then a control strategy is presented by canceling the disturbances via the feedback channels. The well‐posedness of the resulting closed‐loop system is proved by the dual theory and admissibility theory, and the relationship between the stability and the disturbance is interpreted by Lyapunov's second method. At the end, the numerical experiment illustrate the effectiveness of the proposed control strategy.

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Section: Numerical Simulationmentioning

confidence: 79%

Stabilization of a Timoshenko Beam With Disturbance Observer‐Based Time Varying Boundary Controls

Liu

Shang

2017

Asian Journal of Control

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“…In [33], a robust adaptive boundary control for an axially moving string is investigated, by applying a hydraulic actuator at the right boundary of the string. In [34], the stabilization of a Timoshenko beam with a tip payload subjected to boundary external disturbances is considered. The effects of the external disturbances have been eliminated according to design some nonlinear feedback control laws.…”

Section: Introductionmentioning

confidence: 99%

Vibration Control of a Flexible Spacecraft System With Input Backlash

Lin

et al. 2019

IEEE Access

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In this paper, we deal with the vibration control problem of a flexible spacecraft system with unknown external disturbance and uncertain input backlash nonlinearity. The considered system is described by two partial differential equations and an ordinary differential equation as governing equations, and by ordinary differential equations as boundary conditions. The backlash nonlinearity is reformulated into the desired control input associated with an extra input nonlinear error. This input error and the external disturbance are combined into an unknown ''disturbance-like'' item. Two boundary control inputs are designed at the center body of the spacecraft, compensating for the unknown upper-bound of such items by applying proper online updating laws. As a result, the vibration of both solar panels of the flexible spacecraft is suppressed and their angle positions are regulated in the desired region. The numerical simulations are provided to verify the control performance of the proposed controls by the choice of proper parameters.INDEX TERMS Vibration control, adaptive control, flexible satellite, input backlash.

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“…For the practice flexible robotic manipulator, the shear deformation has great influence on the performance of the flexible system and cannot be ignored in the dynamic analysis because of the small span of the link and it is more accurate to regard it as the flexible Timoshenko robotic manipulator. In [36,37], Xu et al studied a Timoshenko cantilever beam and active controllers were designed to stabilise the flexible beam. In [38], a Timoshenko beam with an input constraint was investigated and the boundary control was proposed to reduce the elastic deflection and the shear deformation.…”

Section: Introductionmentioning

confidence: 99%

Boundary vibration control for a flexible Timoshenko robotic manipulator

Qin

et al. 2018

IET Control Theory & Applications

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Stabilisation of Timoshenko beam system with a tip payload under the unknown boundary external disturbances

Cited by 18 publications

References 20 publications

Stabilization of a Timoshenko Beam With Disturbance Observer‐Based Time Varying Boundary Controls

Stabilization of a Timoshenko Beam With Disturbance Observer‐Based Time Varying Boundary Controls

Vibration Control of a Flexible Spacecraft System With Input Backlash

Boundary vibration control for a flexible Timoshenko robotic manipulator

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