Title :
LQR motion control and analysis of a prototype spherical robot
Author :
Zadeh, Farshad Khademian ; Asiri, Samira ; Moallem, P. ; Zadeh, Maryam Malek
Author_Institution :
Dept. Of Mechatron. Eng., Univ. of Isfahan, Isfahan, Iran
Abstract :
This article presents the results of a study on a prototype of spherical rolling robot and proposed a linear quadratic regulator controller to stabilize the system. The dynamic model of this spherical rolling robot has been presented with 2-DOF pendulum located inside a spherical shell and considered as a plate-ball system. The motion of the system is generated with a servo motor for left and right direction and a DC motor for forward and backward motion. Dynamic equations of the system are derived based on Euler-Lagrange method. Controlling a spherical robot is a challenging problem till today due to its nature of kinematics and highly nonlinear dynamics. Accordingly, a mid loop linear quadratic regulator (LQR) has been designed using full-state feedback to control the spherical robot. Simulation and experimental test have been carried out to show the effectiveness of the proposed controller.
Keywords :
DC motors; control system synthesis; differential equations; linear quadratic control; mobile robots; motion control; pendulums; robot dynamics; servomotors; state feedback; 2-DOF pendulum; DC motor; Euler-Lagrange method; LQR motion analysis; LQR motion control; full-state feedback; linear quadratic regulator controller; mid loop linear quadratic regulator design; plate-ball system; prototype spherical rolling robot dynamic model; servo motor; spherical shell; DC motors; Dynamics; Equations; Mathematical model; Prototypes; Robots; Torque; LQR; decoupled dynamic Euler-Lagrange; pendulum; spherical robot;
Conference_Titel :
Robotics and Mechatronics (ICRoM), 2014 Second RSI/ISM International Conference on
Conference_Location :
Tehran
DOI :
10.1109/ICRoM.2014.6991017
