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Learning to Drive using Inverse Reinforcement Learning and Deep Q-Networks

12/12/2016

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by Sahand Sharifzadeh, et al.

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We propose an inverse reinforcement learning (IRL) approach using Deep Q-Networks to extract the rewards in problems with large state spaces. We evaluate the performance of this approach in a simulation-based autonomous driving scenario. Our results resemble the intuitive relation between the reward function and readings of distance sensors mounted at different poses on the car. We also show that, after a few learning rounds, our simulated agent generates collision-free motions and performs human-like lane change behaviour.

Sahand Sharifzadeh
12 publications
Ioannis Chiotellis
3 publications
Rudolph Triebel
40 publications
Daniel Cremers
177 publications

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