Title :
Motion planning of a mobile robot as a discrete optimization problem
Author :
Igarashi, Harukazu
Author_Institution :
Sch. of Eng., Kinki Univ., Hiroshima, Japan
Abstract :
Igarashi and Ioi (2000) proposed a solution to motion planning of a mobile robot. They formulated the problem as a discrete optimization problem at each time step. To solve the optimization problem, they used an objective function consisting of a goal term, a smoothness term and a collision term. We propose a theoretical method using reinforcement learning for adjusting weight parameters in the objective functions. However, the conventional Q-learning method cannot be applied to a non-Markov decision process, which is caused by the smoothness term. Thus, we applied Williams´s (1992) learning algorithm, episodic REINFORCE, to derive a learning rule for the weight parameters. This maximizes a value function stochastically. We verified the learning rule by some experiments
Keywords :
gradient methods; learning (artificial intelligence); mobile robots; optimisation; path planning; probability; collision term; discrete optimization problem; episodic REINFORCE; goal term; learning rule; motion planning; nonMarkov decision process; reinforcement learning; smoothness term; weight parameters; Acceleration; Distribution functions; Humans; Learning; Mobile robots; Motion planning; Navigation; Robot motion; Robotics and automation; Stochastic processes;
Conference_Titel :
Assembly and Task Planning, 2001, Proceedings of the IEEE International Symposium on
Conference_Location :
Fukuoka
Print_ISBN :
0-7803-7004-X
DOI :
10.1109/ISATP.2001.928957
