Obstacle avoidance using wall-following strategy for indoor mobile robots

K. Al-Mutib, M. Faisal, M. Alsulaiman, F. Abdessemed, H. Ramdane, Mohammed A. Bencherif
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引用次数: 12

Abstract

This paper proposes a fuzzy logic methodology to control an indoor mobile robot for a complete navigation in an unknown environment. The methodology incorporates two basic behaviors, namely: reaching the goal and avoiding obstacles. The obstacle avoidance behavior is treated using wall-following scheme based on a fuzzy technique proposed for this proposed. The mobile robot control mechanism uses some sort of knowledge-base arranged in a set of fuzzy-rule-base to implement the wanted behavior that makes the mobile robot follow the boundary of an obstacle or a wall. A constant distance to the obstacle/wall is maintained while the robot tries successfully to get around this difficulty. Once the path is clear, the obstacle avoidance behavior is inhibited and reaching the goal behavior is activated using a second fuzzy controller. In order to handle data uncertainties, Type-2 fuzzy sets are considered. This methodology was successfully tested on a real mobile robot for different sort of scenarios.
基于墙体跟随策略的室内移动机器人避障
本文提出了一种模糊逻辑方法来控制室内移动机器人在未知环境下的完全导航。该方法包含两个基本行为,即:达到目标和避免障碍。在此基础上提出了一种基于模糊技术的避障行为处理方法。移动机器人的控制机制利用一组模糊规则库中的某种知识库来实现所需的行为,使移动机器人沿着障碍物或墙壁的边界移动。当机器人试图成功绕过这个难度时,与障碍物/墙壁保持恒定的距离。一旦路径清晰,避障行为被抑制,到达目标行为被激活,使用第二个模糊控制器。为了处理数据的不确定性,考虑了二类模糊集。该方法在一个真实的移动机器人上成功地进行了不同类型场景的测试。
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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