Design of a Networked Controller for a Two-Wheeled Inverted Pendulum Robot

The topic of this paper is to use an intuitive modelbased approach to design a networked controller for a recent benchmark scenario. The benchmark problem is to remotely control a two-wheeled inverted pendulum robot via WLAN communication. The robot has to keep its vertical equilibrium while tracking some desired positional reference in the 2D plane. Incorporating wireless communication in the control loop introduces multiple uncertainties and affects system performance and stability. The proposed networked control scheme employs model predictive techniques and deliberately extends delays in order to make them constant and deterministic. The performance of the resulting networked control system is evaluated experimentally and compared to local control involving no delays.     «

The topic of this paper is to use an intuitive modelbased approach to design a networked controller for a recent benchmark scenario. The benchmark problem is to remotely control a two-wheeled inverted pendulum robot via WLAN communication. The robot has to keep its vertical equilibrium while tracking some desired positional reference in the 2D plane. Incorporating wireless communication in the control loop introduces multiple uncertainties and affects system performance and stability. The propos...     »