Combining Planning and Deep Reinforcement Learning in Tactical Decision Making for Autonomous Driving

Combining Planning and Deep Reinforcement Learning in Tactical Decision Making for Autonomous Driving

Tactical decision making for autonomous driving is challenging due to the diversity of environments, the uncertainty in the sensor information, and the complex interaction with other road users. This article introduces a general framework for tactical decision making, which combines the concepts of...

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Veröffentlicht in:IEEE transactions on intelligent vehicles 2020-06, Vol.5 (2), p.294-305
Hauptverfasser: Hoel, Carl-Johan, Driggs-Campbell, Katherine, Wolff, Krister, Laine, Leo, Kochenderfer, Mykel J.
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Autonomous driving
Autonomous vehicles
Computer simulation
Decision making
Machine learning
Monte Carlo methods
Monte Carlo tree search
Neural networks
Planning
Reinforcement learning
Road transportation
tactical decision making
Tactics
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Zusammenfassung:Tactical decision making for autonomous driving is challenging due to the diversity of environments, the uncertainty in the sensor information, and the complex interaction with other road users. This article introduces a general framework for tactical decision making, which combines the concepts of planning and learning, in the form of Monte Carlo tree search and deep reinforcement learning. The method is based on the AlphaGo Zero algorithm, which is extended to a domain with a continuous state space where self-play cannot be used. The framework is applied to two different highway driving cases in a simulated environment and it is shown to perform better than a commonly used baseline method. The strength of combining planning and learning is also illustrated by a comparison to using the Monte Carlo tree search or the neural network policy separately.
ISSN:2379-8858
2379-8904
DOI:10.1109/TIV.2019.2955905