Journal ArticleDOI
Neural network controller design for fractional-order systems with input nonlinearities and asymmetric time-varying Pseudo-state constraints
Farouk Zouari,Asier Ibeas,Asier Ibeas,Abdesselem Boulkroune,Jinde Cao,Jinde Cao,Mohammad Mehdi Arefi +6 more
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TLDR
All signals, including variables and errors in the closed-loop system are semi-global practical finite-time stability whereas the the tracking errors are asymptotically driven to zero without transgression of the constraints.Abstract:
This article considers the neural adaptive control issues of a category of non-integer-order non-square plants with actuator Nonlinearities and Asymmetric Time-Varying pseudo-State Constraints. First, the original non-square non-affine system with input nonlinearities is transformed into an equivalent affine-in-control square model by defining a set of auxiliary variables and by employing the mean-value theorem. Second, Neural networks and Nussbaum functions are exploited to obviate the requirement of a complete knowledge of the system dynamics and the control directions, respectively. Third, a novel adaptive dynamic surface control method based on Caputo fractional derivative definitions and fractional order filters is developed to overcome the “explosion of complexity” problem in the traditional backstepping design process and to determine the parameter update laws and control signals, concurrently. Then, Asymmetric Barrier Lyapunov Functions with error variables are adopted to ensure the uniform stability of the closed-loop system and to prevent the violation of the full pseudo-State constraints. The novelties and contributions of this article are: (1) through the introduction of new technical Lemmas and corollaries, existing control design and stability theories linked to integer-order square systems are developed and extended to non-square non-integer-order ones. (2) all signals, including variables and errors in the closed-loop system are semi-global practical finite-time stability whereas the the tracking errors are asymptotically driven to zero without transgression of the constraints. Finally, the effectiveness and potential of the proposed control approach are substantiated by two example simulations.read more
Citations
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Journal ArticleDOI
Dynamic surface control for tracking of unmanned surface vessel with prescribed performance and asymmetric time-varying full state constraints
TL;DR: In this paper , a novel prescribed performance and full state constraints dynamic surface control (PP&FSC-DSC) scheme is proposed for trajectory tracking of unmanned surface vessel (USV) with model uncertainties, unknown nonlinear disturbances and full-state and input constraints.
Journal ArticleDOI
Some results for a class of two-dimensional fractional hyperbolic differential systems with time delay.
TL;DR: In this paper, the existence and uniqueness of global solution and finite time stability of fractional partial hyperbolic differential systems (FPHDSs) are studied and an estimation of solution is given.
Journal ArticleDOI
Adaptive quantitative control for finite time synchronization among multiplex switched nonlinear coupling complex networks
TL;DR: In this article , an adaptive delay-dependent quantitative tracking control policy is presented to overcome the time-varying dynamic characteristics of the multiplex networks and describe the limitation in signal transmission process.
Journal ArticleDOI
Fault-Tolerant Adaptive Fractional Controller Design for Incommensurate Fractional-Order Nonlinear Dynamic Systems Subject to Input and Output Restrictions
Journal ArticleDOI
Fuzzy-weighted differential evolution computing paradigm for fractional order nonlinear wiener systems
TL;DR: In this article , a fuzzy-weighted differential evolution (FLDE) algorithm is proposed for parameter estimation of fractional order nonlinear Wiener (FO-NW) systems, which are designed as an extension of conventional Wiener type models by exploiting Grunwald-Letnikov fractional derivative.
References
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Journal ArticleDOI
Robust Adaptive Control of Uncertain Nonlinear Systems in the Presence of Input Saturation and External Disturbance
TL;DR: Two new robust adaptive control algorithms are developed by introducing a well defined smooth function and using a Nussbaum function to compensate for the nonlinear term arising from the input saturation.
Journal ArticleDOI
A generalized Gronwall inequality and its application to a fractional differential equation
TL;DR: In this article, a generalized Gronwall inequality with singularity was used to study the dependence of the solution of a fractional differential equation on the order and the initial condition of the equation.
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Barrier Lyapunov Functions-based adaptive control for a class of nonlinear pure-feedback systems with full state constraints
Yan-Jun Liu,Shaocheng Tong +1 more
TL;DR: An adaptive control technique is developed for a class of uncertain nonlinear parametric systems and it is proved that all the signals in the closed-loop system are global uniformly bounded and the tracking error is remained in a bounded compact set.
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Adaptive Fuzzy Control for Nonstrict-Feedback Systems With Input Saturation and Output Constraint
TL;DR: An adaptive fuzzy control approach for a category of uncertain nonstrict-feedback systems with input saturation and output constraint is presented, and the simulation results reveal the effectiveness of the proposed approach.
Journal ArticleDOI
Adaptive Neural Network Control of a Marine Vessel With Constraints Using the Asymmetric Barrier Lyapunov Function
Wei He,Zhao Yin,Changyin Sun +2 more
TL;DR: This paper considers the trajectory tracking of a marine surface vessel in the presence of output constraints and uncertainties, and an asymmetric barrier Lyapunov function is employed to cope with the output constraints.