Adaptive Neural Impedance Control of a Robotic Manipulator With Input Saturation

He, Wei; Dong, Yiting; Sun, Changyin

doi:10.1109/tsmc.2015.2429555

articleIEEE Transactions on Systems Man and Cybernetics SystemsJun 3, 2015Closed access

Adaptive Neural Impedance Control of a Robotic Manipulator With Input Saturation

WHWei He YDYiting Dong CSChangyin Sun

University of Electronic Science and Technology of China · Southeast University

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Abstract

In this paper, adaptive impedance control is developed for an n-link robotic manipulator with input saturation by employing neural networks. Both uncertainties and input saturation are considered in the tracking control design. In order to approximate the system uncertainties, we introduce a radial basis function neural network controller, and the input saturation is handled by designing an auxiliary system. By using Lyapunov's method, we design adaptive neural impedance controllers. Both state and output feedbacks are constructed. To verify the proposed control, extensive simulations are conducted.

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Topics & keywords

Topics

Keywords

Control theory (sociology)
Artificial neural network
Adaptive control
Lyapunov function
Saturation (graph theory)
Electrical impedance
Control engineering
Computer science

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