Dual adaptive control for trajectory tracking of mobile robots

Abstract

This paper presents a novel dual adaptive dynamic controller for trajectory tracking of nonholonomic wheeled

mobile robots. The controller is developed entirely in discretetime and the and the robot’s nonlinear dynamic functions are

assumed to be unknown. A Gaussian radial basis function neural network is employed for function approximation, and its weights are estimated stochastically in real-time. In contrast to adaptive certainty equivalence controllers hitherto published for mobile robots, the proposed control law takes into consideration the estimates’ uncertainty, thereby leading to improved tracking performance. The proposed method is verified by realistic simulations and Monte Carlo analysis.