A Hybrid metaheuristic Navigation Algorithm for robot Path rolling Planning in an unknown Environment

Mechatron. Syst. Control. Pub Date : 2019-02-26 DOI:10.2316/j.2019.201-3000

Shoujiang Xu, Edmond S. L. Ho, Hubert P. H. Shum

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引用次数: 2

Abstract

In this paper, a new method for robot path rolling planning in a static and unknown environment based on grid modelling is proposed. In an unknown scene, a local navigation optimization path for the robot is generated intelligently by ant colony optimization (ACO) combined with the environment information of robot’s local view and target information. The robot plans a new navigation path dynamically after certain steps along the previous local navigation path, and always moves along the optimized navigation path which is dynamically modified. The robot will move forward to the target point directly along the local optimization path when the target is within the current view of the robot. This method presents a more intelligent sub-goal mapping method comparing to the traditional rolling window approach. Besides, the path that is part of the generated local path based on the ACO between the current position and the next position of the robot is further optimized using particle swarm optimization (PSO), which resulted in a hybrid metaheuristic algorithm that incorporates ACO and PSO. Simulation results show that the robot can reach the target grid along a global optimization path without collision.

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未知环境下机器人路径滚动规划的混合元启发式导航算法

提出了一种基于网格建模的静态未知环境下机器人路径滚动规划新方法。在未知场景下，结合机器人局部视角环境信息和目标信息，采用蚁群算法智能生成机器人局部导航优化路径。机器人沿着原有的局部导航路径经过一定的步长后动态规划出新的导航路径，并始终沿着动态修改后的优化导航路径移动。当目标在机器人当前视野范围内时，机器人将直接沿着局部优化路径向目标点移动。与传统的滚动窗方法相比，该方法提出了一种更加智能的子目标映射方法。在此基础上，对基于蚁群算法生成的机器人当前位置与下一个位置之间的局部路径进行了粒子群优化，得到了一种结合蚁群算法和粒子群算法的混合元启发式算法。仿真结果表明，机器人可以沿全局优化路径到达目标网格，不会发生碰撞。

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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Mechatron. Syst. Control.

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