通过双方合作探索,采用改进蚁群优化算法进行全局路径规划

Joon-Woo Lee, Dong-Hyun Lee, Jujang Lee
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引用次数: 16

摘要

为了解决自主移动机器人的全局路径规划问题,我们在之前的文章中提出了异构蚁群优化算法。与传统蚁群算法解决旅行商问题(TSP)或二次分配问题(QAP)不同,HACO算法被改进和优化以解决全局路径规划问题。然而,用于全局路径规划的蚁群算法(包括HACO算法)存在一个共同的缺点。蚂蚁在起点附近的探索任务执行得比较好。另一方面,由于蚁群算法在运行过程中被启发式值的强度和信息素的积累所吸引,使得蚁群算法在接近目标点时受到阻碍。因此,他们有一种强烈的不去探索的倾向,他们中的大多数人都沿着一开始寻找的道路走下去。这可能导致局部最优解。因此,本文提出了一种解决这一问题的方法。这就是双边合作探索(BCE)方法。BCE是通过将目标点更改为起点,反之亦然来再次执行搜索任务的思想。仿真结果表明了该方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Global path planning using improved ant colony optimization algorithm through bilateral cooperative exploration
We proposed the Heterogeneous Ant Colony Optimization (HACO) algorithm to solve the global path planning problem for autonomous mobile robot in the previous paper. The HACO algorithm was modified and optimized to solve the global path planning problem unlike the conventional ACO algorithm which was proposed to solve the Traveling Salesman Problem (TSP) or Quadratic Assignment Problem (QAP). However, there is a common shortcoming in the ACO algorithms for global path planning, including HACO algorithm. Ants carry out the exploration task relatively well around the starting point. On the other hand, they are hindered in their work as they approached the goal point, because they are attracted by the intensity of heuristic value and the accumulated pheromone while the ACO algorithm works. As a result, they have a strong tendency not to explore and most of them follow the path that found in the beginning of the search. This could cause the local optimal solutions. Thus, we propose a way to solve this problem in this paper. It is the Bilateral Cooperative Exploration (BCE) method. The BCE is the idea that performs the search task again by changing the goal point into the starting point and vice versa. The simulation shows the effectiveness of the proposed method.
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