Title :
Nonlinear Model Predictive Control for Omnidirectional Robot Motion Planning and Tracking With Avoidance of Moving Obstacles
Author :
Teatro, T.A.V. ; Eklund, J.M. ; Milman, R.
Author_Institution :
Dept. of Electr., Comput. & Software Eng., Univ. of Ontario Inst. of Technol., Oshawa, ON, Canada
Abstract :
This paper presents a nonlinear model predictive control algorithm for online motion planning and tracking of an omnidirectional autonomous robot. The formalism is based on a Hamiltonian minimization to optimize a control path as evaluated by a cost function. This minimization is constrained by a nonlinear plant model, which confines the solution space to those paths which are physically feasible. The cost function penalizes tracking error, control amplitude, and the presence in a potential field cast by moving obstacles and Boards. An experiment is presented demonstrating the successful navigation of a field of stationary obstacles. Simulations are presented demonstrating that the algorithm enables the robot to react dynamically to moving obstacles.
Keywords :
nonlinear control systems; path planning; predictive control; robots; Hamiltonian minimization; cost function; moving obstacle avoidance; nonlinear model predictive control; nonlinear plant model; omnidirectional autonomous robot; omnidirectional robot motion planning; omnidirectional robot motion tracking; online motion planning; online motion tracking; stationary obstacles; Minimization; Mobile robots; Optimization; Robot kinematics; Trajectory; Vectors; Mobile robot motion-planning; predictive control;
Journal_Title :
Electrical and Computer Engineering, Canadian Journal of
DOI :
10.1109/CJECE.2014.2328973
