End-to-End Model-Free Reinforcement Learning for Urban Driving using Implicit Affordances
Reinforcement Learning (RL) aims at learning an optimal behavior policy from its own experiments and not rule-based control methods. However, there is no RL algorithm yet capable of handling a task as difficult as urban driving. We present a novel technique, coined implicit affordances, to effectively leverage RL for urban driving thus including lane keeping, pedestrians and vehicles avoidance, and traffic light detection. To our knowledge we are the first to present a successful RL agent handling such a complex task especially regarding the traffic light detection. We demonstrate the effectiveness of our method by being one of the top teams of the camera only track of the CARLA challenge.
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