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Towards Robust Wheel-Legged Biped Robot System: Combining Feedforward and Feedback Control

Fahad Raza, Mitsuhiro Hayashibe

Year
2021
Citations
19

Abstract

This paper discusses the combination of model-based feedforward and feedback controller for the hybrid wheel-legged robot. Uncertainties in the modeling parameters such as friction coefficients, inertia matrices, and position of CoM can bring negative effects in the performance of model-based motion controllers. The ability of a control system to compensate for unforeseen circumstances is not only utilitarian but essential if one wishes to bring the robotic systems into the real world. To develop such a robust motion controller for the wheeled biped robot, we present the design and implementation of a nonlinear feedforward controller together with linearized feedback LQR to control the robot on a flat surface. This study investigates the controller performance: feedback, feedforward, and the combined in simulations and also with the real wheel-legged robot. Furthermore, the Extended Kalman Filter (EKF) is implemented to estimate the system states and reduce the sensor noise of the real robot.

Keywords

Feed forwardControl theory (sociology)Controller (irrigation)RobotExtended Kalman filterControl engineeringComputer scienceKalman filterMotion controlEngineering

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