An obstacle avoidance method for robotic arm based on reinforcement learning

Peng Wu, Heng Su, Hao Dong, Tengfei Liu, Min Li, Zhihao Chen
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引用次数: 0

Abstract

Purpose

Robotic arms play a crucial role in various industrial operations, such as sorting, assembly, handling and spraying. However, traditional robotic arm control algorithms often struggle to adapt when faced with the challenge of dynamic obstacles. This paper aims to propose a dynamic obstacle avoidance method based on reinforcement learning to address real-time processing of dynamic obstacles.

Design/methodology/approach

This paper introduces an innovative method that introduces a feature extraction network that integrates gating mechanisms on the basis of traditional reinforcement learning algorithms. Additionally, an adaptive dynamic reward mechanism is designed to optimize the obstacle avoidance strategy.

Findings

Validation through the CoppeliaSim simulation environment and on-site testing has demonstrated the method's capability to effectively evade randomly moving obstacles, with a significant improvement in the convergence speed compared to traditional algorithms.

Originality/value

The proposed dynamic obstacle avoidance method based on Reinforcement Learning not only accomplishes the task of dynamic obstacle avoidance efficiently but also offers a distinct advantage in terms of convergence speed. This approach provides a novel solution to the obstacle avoidance methods for robotic arms.

基于强化学习的机械臂避障方法
目的机械臂在分拣、装配、搬运和喷涂等各种工业操作中发挥着至关重要的作用。然而,面对动态障碍物的挑战,传统的机械臂控制算法往往难以适应。本文旨在提出一种基于强化学习的动态避障方法,以解决动态障碍物的实时处理问题。本文介绍了一种创新方法,即在传统强化学习算法的基础上,引入一种整合了门控机制的特征提取网络。研究结果通过 CoppeliaSim 仿真环境和现场测试,验证了该方法能够有效地避开随机移动的障碍物,与传统算法相比,收敛速度明显提高。这种方法为机械臂的避障方法提供了一种新的解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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