Neural adaptive tracking controller for robot manipulators with unknown dynamics

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Neural adaptive tracking controller for robot manipulators with unknown dynamics

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A neural network (NN)-based adaptive control law is proposed for the tracking control of an n-link robot manipulator with unknown dynamic nonlinearities. Basis-function-like networks are employed to approximate the plant nonlinearities, and the bound on the NN reconstruction error is assumed to be unknown. The proposed NN-based adaptive control approach integrates the NN approach and an adaptive implementation of the discrete variable structure control, with a simple estimation mechanism for the upper bound on the NN reconstruction errors and an additional control input as a function of the estimate. Lyapunov stability theory is used to prove the uniform ultimate boundedness of the tracking error, and simulation results demonstrate the applicability of the proposed method to achieve desired performance.

Inspec keywords: tracking; adaptive control; stability; Lyapunov methods; neurocontrollers; variable structure systems; radial basis function networks; manipulator dynamics; discrete time systems

Other keywords: variable structure control; radial basis-function-networks; tracking; dynamic nonlinearities; robot manipulator; Lyapunov method; upper bound; discrete time systems; adaptive control; neurocontrol; stability

Subjects: Stability in control theory; Self-adjusting control systems; Neurocontrol; Multivariable control systems; Discrete control systems; Neural nets (theory); Manipulators

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