Deep Reinforcement Learning Based AGV Self-navigation Obstacle Avoidance Method

Na Feng; Fei Fan; Guanglin Xu; Lianqing Yu

doi:10.15878/j.cnki.instrumentation.2022.04.005

Articles

Vol. 9 No. 4 (2022)

Deep Reinforcement Learning Based AGV Self-navigation Obstacle Avoidance Method

Na Feng^▸^▾
Fei Fan
Guanglin Xu
Lianqing Yu

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DOI: https://doi.org/10.15878/j.cnki.instrumentation.2022.04.005
Submitted: January 10, 2024
Published: 2022-12-15

Abstract

A local path optimization model and obstacle avoidance strategy based on Actor-Critic algorithm is proposed for the local obstacle avoidance problem of automatic guided vehicles in a complex workshop environment. In the complex working environment of the production workshop, we analyze the automatic obstacle avoidance problem of AGV trolley, establish the front and both sides of the AGV tentacle model and Markov decision process, and describe the local obstacle avoidance path in the form of virtual tentacles. And based on deep reinforcement learning to solve the path obstacle avoidance strategy, it is applied to the AGV self-navigation system. The dynamic obstacle avoidance performance of AGV is tested through simulation experiments, and the effectiveness of the proposed algorithm is verified by completing local obstacle avoidance path planning under global path guidance.

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Keywords

Obstacle Avoidance
Virtual Whisker
Deep Reinforcement Learning

How to Cite

Feng, N., Fan, F., Xu, G., & Yu, L. (2022). Deep Reinforcement Learning Based AGV Self-navigation Obstacle Avoidance Method. Instrumentation, 9(4). https://doi.org/10.15878/j.cnki.instrumentation.2022.04.005

This work is licensed under a Creative Commons Attribution 4.0 International License.

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