基于蛇形曲线和遗传算法的蛇形机器人路径规划

Fifth World Congress on Intelligent Control and Automation (IEEE Cat. No.04EX788) Pub Date : 2004-06-15 DOI:10.1109/WCICA.2004.1343634

Jinguo Liu, Yuechao Wang, Bin, S. Ma

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引用次数: 18

摘要

由于蛇形机器人的运动受到地面条件、机构振动和电机电压变化等多种不确定因素的影响，其路径无重复。沈阳自动化研究所提出了一种基于蛇形曲线和遗传算法(GAs)的蛇形机器人路径规划方法。首先，近似计算了路径和曲率偏差的范围，并将其设置为遗传算法的边界;然后利用实时对偶遗传算法，该路径规划技术不仅可以确定最短路径和最小曲率偏差，而且可以限制运动误差的影响。仿真结果表明，第二层遗传算法的结果比第一层遗传算法的结果更有效，该算法对SIA蛇形机器人的路径规划是有效的。

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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Path planning of a snake-like robot based on serpenoid curve and genetic algorithms

The path of the snake-like robot has no repetition because its motion is influenced by manifold indeterminate factors such as ground condition, mechanism's vibration and motor voltage's variety. A novel path planning technique based on serpenoid curve and genetic algorithms (GAs) has been proposed to control the snake-like robot in Shenyang Institute of Automation (SIA, China). First, the ranges of the path and the curvature deviation have been calculated approximately and set as the bounds of genetic algorithms. Then using real time dual genetic algorithms, this path planning technique not only can decide the shortest path and the minimum curvature deviation, but also can limit the motion error's influence. Simulation results show that the results of the second layer of GAs are more available than that of the first layer of GAs and this novel technique is effective for the path planning of the SIA snake-like robot.

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Fifth World Congress on Intelligent Control and Automation (IEEE Cat. No.04EX788)

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