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Robot Path Planning Using an Improved Genetic Algorithm with Ordered Feasible Subpaths

机译：使用带有排序可行子路径的改进遗传算法的机器人路径规划

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This paper proposes an improved genetic algorithm to enhance the search efficiency and robustness of robot path planning. Its three main contributions are: 1)initialization: free grids are divided into multiple sets according to the main diagonal direction, and all feasible subpaths in each set are found. From a given starting point, feasible subpaths are randomly selected in each set and orderly connected to reach the end point. This guarantees that each initial path is feasible. 2)mutation: a new mutation operator is proposed to ensure the generated paths are feasible. 3)simplification: a simplification operator is proposed to shorten the path while maintaining its feasibility. Experimental results demonstrate the speed and performance of the proposed algorithm.

机译：本文提出了一种改进的遗传算法，以提高机器人路径规划的搜索效率和鲁棒性。它的三个主要贡献是：1）初始化：根据主对角线方向将自由网格划分为多个集合，并找到每个集合中所有可行的子路径。从给定的起点开始，在每个集合中随机选择可行的子路径，并有序地连接以到达终点。这保证了每个初始路径都是可行的。 2）变异：提出了一种新的变异算子，以确保生成的路径是可行的。 3）简化：提出了一种简化算子，可以在保持可行性的同时缩短路径。实验结果证明了该算法的速度和性能。

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来源
《Chinese Automation Congress》|2018年|4293-4297|共5页
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作者
Xianfeng Tan; Deming Lei; Dongrui Wu; Zheng Li;
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Genetic algorithms; Sociology; Statistics; Path planning; Mobile robots; Automation;

机译：遗传算法;社会学;统计;路径规划;移动机器人;自动化;

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专利

1. An improved genetic algorithm with co-evolutionary strategy for global path planning of multiple mobile robots [J] . Hong Qu, Ke Xing, Takacs Alexander Neurocomputing . 2013,第nova23期

机译：改进的遗传算法与协同进化策略在多移动机器人全局路径规划中的应用
2. Dynamic path planning of mobile robots with improved genetic algorithm [J] . Adem Tuncer, Mehmet Yildirim Computers and Electrical Engineering . 2012,第6期

机译：改进遗传算法的移动机器人动态路径规划
3. Path Planning of Mobile Robot Based on Improved Multiobjective Genetic Algorithm [J] . Kairong Li, Qianqian Hu, Jinpeng Liu Wireless communications & mobile computing . 2021,第a期

机译：基于改进多目标遗传算法的移动机器人路径规划
4. Robot Path Planning Using an Improved Genetic Algorithm with Ordered Feasible Subpaths [C] . Xianfeng Tan, Deming Le, Dongrui Wu, Chinese Automation Congress . 2018

机译：使用具有有序可行子路径的改进的遗传算法的机器人路径规划
5. Development of a multi-resolution parallel genetic algorithm for autonomous robotic path planning. [D] . Lucas, Drew Tyler. 2012

机译：开发用于自主机器人路径规划的多分辨率并行遗传算法。
6. A Method on Dynamic Path Planning for Robotic Manipulator Autonomous Obstacle Avoidance Based on an Improved RRT Algorithm [O] . Kun Wei, Bingyin Ren 2018

机译：基于改进RRT算法的机器人操纵器自主避障动态路径规划方法
7. Dynamic Path Planning Algorithm for a Mobile Robot Based on Visible Space and an Improved Genetic Algorithm [O] . Xiaolei Zhang, Yan Zhao, Nianmao Deng, 2016

机译：基于可见空间的移动机器人动态路径规划算法及改进遗传算法
8. Robot path planning using a genetic algorithm [R] . Cleghorn, Timothy F., Baffes, Paul T., Wang, Liu 1988

机译：使用遗传算法的机器人路径规划

Robot Path Planning Using an Improved Genetic Algorithm with Ordered Feasible Subpaths

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