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Learning Crowd-Aware Robot Navigation from Challenging Environments via Distributed Deep Reinforcement Learning

Sango Matsuzaki, Yuji Hasegawa

发表年份
2022
引用次数
15

摘要

This paper presents a deep reinforcement learning (DRL) sframework for safe and efficient navigation in crowded environments. Here, the robot learns cooperative behavior using a new reward function that penalizes robot actions interfering with the pedestrian's movement. Also, we propose a simulated pedestrian policy reflecting data from actual pedestrian movements. Furthermore, we introduce a collision detection that considers the pedestrian's personal space to generate affinity robot behavior. To efficiently explore this simulation environment, we propose distributed learning using Ape-X [1]. We deployed the robot in a real environment and verified its crowd-aware navigation performance compared with an actual human in terms of path length, travel time, and the number of abrupt avoidances.

关键词

Reinforcement learningPedestrianComputer scienceRobotCollision avoidanceArtificial intelligenceMobile robotHuman–computer interactionRobot learningPath (computing)

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