Adaptive Control
Journal of Intelligent and Robotic Systems
Comparison of RBF and SHL Neural Network Based Adaptive Control
Journal of Intelligent and Robotic Systems
Wheeled Mobile Robots Control in a Linear Platoon
Journal of Intelligent and Robotic Systems
Velocity and position control of a wheeled inverted pendulum by partial feedback linearization
IEEE Transactions on Robotics
Development of a Self-Balancing Human Transportation Vehicle for the Teaching of Feedback Control
IEEE Transactions on Education
Artificial Life and Robotics
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This paper presents adaptive robust regulation methods for self-balancing and yaw motion of a two-wheeled human transportation vehicle (HTV) with varying payload and system uncertainties. The proposed regulators are aimed at providing consistent driving performance for the HTV with system uncertainties and parameter variations caused by different drivers. By decomposing the overall system into the yaw motion subsystems and the wheeled inverted pendulum, two proposed adaptive robust regulators are synthesized to achieve self-balancing and yaw motion control. Numerical simulations and experimental results on different terrains show that the proposed adaptive robust controllers are capable of achieving satisfactory control actions to steer the vehicle.