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Obstacle Avoidance and Navigation Utilizing Reinforcement Learning with Reward Shaping

Daniel Zhang, Colleen P. Bailey

Year
2020
Citations
4
Access
Open access

Abstract

In this paper, we investigate the obstacle avoidance and navigation problem in the robotic control area. For solving such a problem, we propose revised Deep Deterministic Policy Gradient (DDPG) and Proximal Policy Optimization algorithms with an improved reward shaping technique. We compare the performances between the original DDPG and PPO with the revised version of both on simulations with a real mobile robot and demonstrate that the proposed algorithms achieve better results.

Keywords

Obstacle avoidanceReinforcement learningMobile robotComputer scienceObstacleArtificial intelligenceCollision avoidanceRobot

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