Heuristic and learning method for obstacle avoidance with mobile robot

2020 2nd International Workshop on Human-Centric Smart Environments for Health and Well-being (IHSH) Pub Date : 2021-02-09 DOI:10.1109/IHSH51661.2021.9378725

F. Lachekhab, D. Acheli, M. Tadjine, Yassine Meraihi

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引用次数: 1

Abstract

In this paper, a fuzzy controller obstacle avoidance of the mobile robot Pioneer II is proposed. The fuzzy inference system FIS of this controller is performed by two methods: heuristic and reinforcement learning. the manual tuning of the fuzzy control system can be long and difficult. In contrast, reinforcement learning has proven theoretically and practically its ability to automatically optimize some parameters of the FIS. For that, the Fuzzy Actor-Critic Learning algorithm allows the determination of the parameters of the conclusions among of an available set fixed by the operator. The proposed algorithm allows the automatic determination of the parameters of the conclusions of the fuzzy rules. The simulations show that the two controllers (heuristic, RL controller) are able to avoid the different shapes of obstacles contained in known environments, and they show exceptionally good robustness when changing the environment (shape of obstacles, location of obstacles in the environment

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移动机器人避障的启发式学习方法

针对移动机器人Pioneer II，提出了一种模糊避障控制器。该控制器的模糊推理系统FIS采用启发式和强化学习两种方法实现。模糊控制系统的手动整定是费时且困难的。相比之下，强化学习已经在理论和实践上证明了它能够自动优化FIS的一些参数。为此，模糊Actor-Critic学习算法允许操作员确定可用集合中结论的参数。提出的算法可以自动确定模糊规则结论的参数。仿真结果表明，这两种控制器(启发式控制器和强化学习控制器)能够避免已知环境中包含的不同形状的障碍物，并且在改变环境(障碍物的形状、障碍物在环境中的位置)时表现出非常好的鲁棒性

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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来源期刊

2020 2nd International Workshop on Human-Centric Smart Environments for Health and Well-being (IHSH)

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