求冗余机器人逆运动学解的改进果蝇优化算法

杨帅

doi:10.16579/j.issn.1001.9669.2020.04.019

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求冗余机器人逆运动学解的改进果蝇优化算法

优化·可靠性 | 更新时间：2022-09-22

- 求冗余机器人逆运动学解的改进果蝇优化算法
- SOLVING INVERSE KINEMATICS PROBLEM OF REDUNDANT ROBOT BASED ON IMPROVED FRUIT FLY OPTIMIZTION ALGORITHM
- 机械强度 2020年42卷第4期页码：883-889
- 作者机构：
  
  1. 淮安信息职业技术学院自动化学院
- 作者简介：
- 基金信息：
  
  江苏省高等学校自然科学研究面上项目(18KJB510003)
- DOI：10.16579/j.issn.1001.9669.2020.04.019
  中图分类号：
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杨帅. 求冗余机器人逆运动学解的改进果蝇优化算法[J]. 机械强度, 2020,42(4):883-889.

YANG Shuai. SOLVING INVERSE KINEMATICS PROBLEM OF REDUNDANT ROBOT BASED ON IMPROVED FRUIT FLY OPTIMIZTION ALGORITHM[J]. 2020,42(4):883-889.
杨帅. 求冗余机器人逆运动学解的改进果蝇优化算法[J]. 机械强度, 2020,42(4):883-889. DOI： 10.16579/j.issn.1001.9669.2020.04.019.

YANG Shuai. SOLVING INVERSE KINEMATICS PROBLEM OF REDUNDANT ROBOT BASED ON IMPROVED FRUIT FLY OPTIMIZTION ALGORITHM[J]. 2020,42(4):883-889. DOI： 10.16579/j.issn.1001.9669.2020.04.019.

摘要

为了解决冗余机器人逆运动学解求取中存在的计算量大和求解精度较低等问题,提出一种基于改进果蝇优化算法(IFOA)的解决方法。IFOA在果蝇算法(FOA)的基础上,在进化方程中添加向最差个体学习的改进策略来优化进化方程,增强了算法跳出局部最优和寻找全局最优的能力。对经典测试函数的仿真结果表明,相比于FOA,IFOA在收敛速度、收敛精度及收敛可靠性方面都有较大的提高。在求冗余机器人逆运动学解的实际应用中,IFOA能够有效提高精度、速度和稳定性,是求冗余机器人逆运动学解的一种有效方法。

Abstract

To solve problems of heavy calculation burden and low solution accuracy for redundant robot in inverse kinematics problem,a solution method based on improved fruit fly optimization algorithm（IFOA） was proposed. On the basis of FOA,the evolutionary equation is optimized by adding an improved strategy of learning worst individuals. The ability of the IFOA to break away from the local optimum and to find the global optimum is greatly enhanced. Experimental results of several typical functions show that IFOA has better global search ability,faster speed,higher accuracy and reliability,compared with FOA. In the application of inverse kinematics problem of the redundant robot,the accuracy,speed and stability were improved effectively,and is thus applicable to solve the inverse kinematics problem of redundant robot.

关键词

果蝇优化算法改进策略冗余机器人逆运动学解

Keywords

Fruit fly optimization algorithmImproved strategyRedundant robotInverse kinematics problem

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