基于蚁群算法和APF算法的移动机器人混合路径规划方法

Xin Tan, Dingfang Chen
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引用次数: 9

摘要

提出了一种基于人工势场(APF)和蚁群算法相结合的移动机器人局部已知环境全局路径规划优化方法。这种方法分为两个步骤。首先,利用可见图法建立移动机器人的自由空间模型,并利用蚁群算法在该模型中搜索通过已知静态障碍物的最短路径,即全局无碰撞路径;其次,当遇到未知障碍物时,采用APF算法实时生成局部路径,避免碰撞;仿真实验结果表明,该方法具有较好的收敛速度和动态性能,适用于复杂环境。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Hybrid Approach of Path Planning for Mobile Robots Based on the Combination of ACO and APF Algorithms
This paper presents an optimal method based on combination of artificial potential field (APF) and ant colony optimization (ACO) algorithms for global path planning of mobile robots working in partially known environments. Two steps constitute this approach. Firstly, free space model of mobile robot is established by using visible graph method and ACO algorithm is utilized in this model to search a global collision-free path which is the shortest routine through known static obstacles. Secondly, when unknown obstacles are encountered, APF algorithm is employed to generate a real-time local path so as to avoid collision. Results of simulation experiments show that the proposed approach has good performance in convergence speed, dynamic behavior and is fit for complex environment.
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