2021 International Seminar on Intelligent Technology and Its Applications (ISITIA) | 2021
H-Infinity Controller Design of Two-Wheeled Mobile Robot Under Disturbance
Abstract
This study investigates a controller design on a two-wheeled robot model under disturbance. The concept of a two-wheeled robot is based on the principle of an inverted pendulum model. The control is investigated on the state-space-based controller design. The controller is designed to satisfy a two-wheeled self-balancing robot’s stability, capable of maintaining the robot in a steady vertical position and robust to disturbance. The main focus of this study is developing the H-infinity controllers for the two-wheeled robot model. The controller is simulated through trial and error and compared to distinguish the best performing controller between other Linear Quadratics Controller (LQR) methods to achieve a solid validation. This investigation shows that the H-infinity controller performs a better performance in the two-wheeled robot model under disturbance.