Homepage
 Research
 Students
 Courses
 Robots
 Papers
 Videos
 Press
 Talks
 Faq
 CV
 Lab
 Travel
 Contact
 Personal
 Links

An Approach to Learning Mobile Robot Navigation

Sebastian Thrun

This paper describes an approach to learning a simple indoor robot navigation task through trial-and-error. A mobile robot, equipped with visual, ultrasonic and laser sensors, learns to servo to a designated target object. In less than ten minutes of operation time, the robot is able to navigate to a marked target object in an office environment. The central learning mechanism is the explanation-based neural network learning algorithm (EBNN). EBNN initially learns function purely inductively using neural network representations. With increasing experience, EBNN employs domain knowledge to explain and to analyze training data in order to generalize in a more knowledgeable way. Here EBNN is applied in the context of reinforcement learning, which allows the robot to learn control using dynamic programming.

Click here to obtain the full paper (711297 bytes).

@ARTICLE{Thrun95d,
  AUTHOR         = {S. Thrun},
  YEAR           = {1996},
  TITLE          = {An Approach to Learning Mobile Robot Navigation},
  JOURNAL        = {Robotics and Autonomous Systems},
  VOLUME         = {15},
  PAGES          = {301--319}
}