MDP robot grid-world example
Applies value iteration to learn a policy for a robot in a grid world.
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Applies value iteration to learn a policy for a Markov Decision Process (MDP) -- a robot in a grid world.
The world is freespaces (0) or obstacles (1). Each turn the robot can move in 8 directions, or stay in place. A reward function gives one freespace, the goal location, a high reward. All other freespaces have a small penalty, and obstacles have a large negative reward. Value iteration is used to learn an optimal 'policy', a function that assigns a
control input to every possible location.
video at https://youtu.be/gThGerajccM
This function compares a deterministic robot, one that always executes movements perfectly, with a stochastic robot, that has a small probability of moving +/-45degrees from the commanded move. The optimal policy for a stochastic robot avoids narrow passages and tries to move to the center of corridors.
From Chapter 14 in 'Probabilistic Robotics', ISBN-13: 978-0262201629, http://www.probabilistic-robotics.org
Aaron Becker, March 11, 2015
Cite As
Aaron T. Becker's Robot Swarm Lab (2026). MDP robot grid-world example (https://au.mathworks.com/matlabcentral/fileexchange/49992-mdp-robot-grid-world-example), MATLAB Central File Exchange. Retrieved .
Acknowledgements
Inspired: Markov Decision Process (MDP) Algorithm, Kilobot Swarm Control using Matlab + Arduino
General Information
- Version 1.0.0.0 (7.72 KB)
MATLAB Release Compatibility
- Compatible with any release
Platform Compatibility
- Windows
- macOS
- Linux
| Version | Published | Release Notes | Action |
|---|---|---|---|
| 1.0.0.0 | added link to video https://youtu.be/gThGerajccM |
