Adaptive tracking control of robot manipulators with input saturation and time‐varying output constraints

Wu, Yuxiang; Huang, Rui; Wang, Yu; Wang, Jiaqing

doi:10.1002/asjc.2305

Cited by 22 publications

(25 citation statements)

References 47 publications

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“…Let u = U(τ ) − τ and J +T u = J +T U(τ ) − J +T τ , there exists a positive constant δ 2 which satisfies J +T u ≤ δ 2 according to ref. [41].…”

Section: Remark 2 For the Initial Valuementioning

confidence: 99%

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UDE-based task space tracking control of uncertain robot manipulator with input saturation and output constraint

Wan

et al. 2022

Robotica

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This paper investigates the trajectory tracking problem of uncertain robot manipulators with input saturation and output constraints. Uncertainty and disturbance estimator (UDE) is used to tackle the model uncertainties and external disturbances. Different from most existing methods, UDE only needs the bandwidth of the unknown plant model for design, which makes it easy to be implemented. Nonlinear state-dependent function is employed to cope with output constraints and a second order auxiliary system is constructed to solve the input saturation. Finally, an UDE-based tracking controller is proposed based on the backstepping method. With the proposed control scheme, the input saturation and the output constraints are not violated, and all signals in the closed-loop system are bounded. The comparative simulation results of a two-link robot manipulator are utilized to validate the effectiveness and superiority of the proposed control method.

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“…Let u = U(τ ) − τ and J +T u = J +T U(τ ) − J +T τ , there exists a positive constant δ 2 which satisfies J +T u ≤ δ 2 according to ref. [41].…”

Section: Remark 2 For the Initial Valuementioning

confidence: 99%

“…Then system (1) can be converted to (5) To further evaluate the performance of the proposed controller, we select two comparative controllers from the literature. The adaptive NN tracking controller [41] is designed as…”

Section: Simulation Platformmentioning

confidence: 99%

UDE-based task space tracking control of uncertain robot manipulator with input saturation and output constraint

Wan

et al. 2022

Robotica

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“…As a result, the computational load is greatly reduced. 3) Compared with the works [38]- [45], which can only guarantee the boundedness of the output tracking error of plants, the proposed direct/indirect neuroadaptive control schemes guarantee that the tracking error converge to zero as t → ∞.…”

Section: Introductionmentioning

confidence: 99%

“…Meanwhile, this method was extended to solve the formation control for waterjet unmanned surface vessels under constraints both in input and output in [44]. The work in [45] paid attention to the control issue of the uncertain robot manipulators (RMs) under input saturation and time-varying output constraints, where ADS and ABLF were used to deal with the constraint issues. Although the works in [38]- [45] had presented many meaningful solutions to the plants described by ELSs, these control solutions can only guarantee that the tracking error of the plants is bounded, i.e., the zero tracking error can not be obtained.…”

Section: Introductionmentioning

confidence: 99%

“…The work in [45] paid attention to the control issue of the uncertain robot manipulators (RMs) under input saturation and time-varying output constraints, where ADS and ABLF were used to deal with the constraint issues. Although the works in [38]- [45] had presented many meaningful solutions to the plants described by ELSs, these control solutions can only guarantee that the tracking error of the plants is bounded, i.e., the zero tracking error can not be obtained. Further research on the zero tracking error of the uncertain ELSs simultaneously with input and output constraints brings forward the challenge.…”

Section: Introductionmentioning

confidence: 99%

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Neuroadaptive Control for Uncertain Euler-Lagrange Systems With Input and Output Constraints

Wang¹,

Kuang²

2021

IEEE Access

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This paper investigates the control issue of Euler-Lagrange systems (ELSs) subject to dynamic uncertainties and external disturbances under input and output constraints, and develops two neuroadaptive control schemes, i.e., direct neuroadaptive approximation method and indirect neuroadaptive approximation method. In the control design, a smooth saturation function called Gaussian error function is used to replace the saturation model, which is applied to solve the input saturation issue. Moreover, a new function is used to guarantee that the output does not violate the restricted boundary. The uncertain dynamic of the ELSs is reconstructed by the direct or indirect neuroadaptive method, and then a virtual-parameter learning method is proposed to reduce the computational load of control schemes. With the aid of Lyapunov stability theory, it is proven that all signals in the closed-loop control system are bounded and the tracking error of ELSs converges to zero under the proposed neuroadaptive control control schemes. The simulations on a robotic manipulator illuminate the effectiveness and preponderance of the developed neuroadaptive control schemes.INDEX TERMS Euler-Lagrange system, dynamic uncertainty, input and output constraints, neuroadaptive control.

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Finite‐time optimal control for uncertain strict‐feedback nonlinear systems with input saturation and output constraints

Xia,

Li,

Zhang

et al. 2023

Adaptive Control & Signal

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SummaryIn this paper, a finite‐time optimal control (FTOC) strategy is proposed for output constrained uncertain nonlinear systems with input saturation. The controller adopts a feed‐forward and optimal feedback control structure. The second‐order command filter and the auxiliary error compensation system are designed in the feed‐forward controller, which can eliminate the influence of filtering error on system performance while avoiding the singularity problem of finite‐time control. A new critic weight updating law is proposed in the design of the optimal feedback controller, in which a neural network is utilized to approximate the relevant cost function. The control scheme can ensure that all signals in the optimize system are semi‐global practical finite‐time stable (SGPFS), and the cost function is also minimized. The effectiveness of the algorithm is validated through simulation examples.

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Adaptive tracking control of robot manipulators with input saturation and time‐varying output constraints

Cited by 22 publications

References 47 publications

UDE-based task space tracking control of uncertain robot manipulator with input saturation and output constraint

UDE-based task space tracking control of uncertain robot manipulator with input saturation and output constraint

Neuroadaptive Control for Uncertain Euler-Lagrange Systems With Input and Output Constraints

Finite‐time optimal control for uncertain strict‐feedback nonlinear systems with input saturation and output constraints

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