基于改进粒子群算法的梯形转向机构设计及优化
Design and Optimization of Trapezoidal Steering Mechanism based on Improved Particle Swarm Algorithm
- 机械传动 2020年44卷第10期 页码:86-95
- 作者机构:
1.辽宁工程技术大学 机械工程学院, 辽宁 阜新 123000
- 作者简介:
翟建华(1968— ),男,湖南株洲人,博士,教授,主要研究方向为先进制造、医疗器械。
邱来奇(1991— ),男,河南商丘人,硕士研究生,主要研究方向为移动机器人、嵌入式软件系统。
- 基金信息:辽宁省自然科学基金(20180550167);辽宁省教育厅高等学校基本科研项目(LJ2017QL020)
DOI:10.16578/j.issn.1004.2539.2020.10.013
中图分类号:
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翟建华,邱来奇,魏晓华等.基于改进粒子群算法的梯形转向机构设计及优化[J].机械传动,2020,44(10):86-95.
Zhai Jianhua,Qiu Laiqi,Wei Xiaohua,et al.Design and Optimization of Trapezoidal Steering Mechanism based on Improved Particle Swarm Algorithm[J].Journal of Mechanical Transmission,2020,44(10):86-95.
翟建华,邱来奇,魏晓华等.基于改进粒子群算法的梯形转向机构设计及优化[J].机械传动,2020,44(10):86-95. DOI: 10.16578/j.issn.1004.2539.2020.10.013.
Zhai Jianhua,Qiu Laiqi,Wei Xiaohua,et al.Design and Optimization of Trapezoidal Steering Mechanism based on Improved Particle Swarm Algorithm[J].Journal of Mechanical Transmission,2020,44(10):86-95. DOI: 10.16578/j.issn.1004.2539.2020.10.013.
摘要
为使轮式移动机器人转向机构特性曲线更加接近理想的阿克曼转向特性曲线,实现精确的转向目的,对其转向机构的设计和参数进行了优化。研究梯形转向机构的设计及工作原理对移动机器人的影响,建立了梯形转向机构的非线性优化模型;将传统粒子群算法引入自适应权重和拉格朗日插值法,进行算法改进,并且给出了求解非线性转向机构优化模型的方法;编写了改进粒子群算法和求解非线性模型的Matlab R2018b的M文件,进行了转向机构优化分析;确定出转向节臂与车轮的角度、三角摇臂与底盘间的角度、三角摇臂和转向节臂的尺寸。优化后的转向机构与理想阿克曼转向机构相接近。最终,将优化后的转向机构进行实例验证,证明结果符合实际应用需要,能有效地减少转向机构的轨迹和理想运行轨迹间的误差,使移动机器人的操纵性及航迹控制得到了改善。
Abstract
In order to make the steering mechanism characteristic curve of the wheeled mobile robot closer to the ideal Ackerman steering characteristic curve and achieve precise steering purpose, the design and parameter optimization of its steering mechanism are optimized. The design of the trapezoidal steering mechanism and its effect on the mobile robot are studied, and the nonlinear optimization model of the trapezoidal steering mechanism is established. The traditional particle swarm optimization algorithm is introduced into the adaptive weights and Lagrange interpolation method to improve the algorithm. The method of solving the optimization model of nonlinear steering mechanism is given, the M-file of Matlab R2018b with improved particle swarm algorithm and solving the nonlinear model is written to analyze the optimization of steering mechanism. The angle of the knuckle arm and wheel, the angle of the triangle rocker arm and the chassis, the size of the triangle rocker arm and the knuckle arm are determined. The results of the optimized steering mechanism are close to the ideal Ackerman steering mechanism. Finally, the optimized steering mechanism is verified by an example. The experimental results are consistent with the actual application requirements. The error between the trajectory of the steering mechanism and the ideal running trajectory can be effectively reduced, and the maneuverability and track control of the mobile robot can be improved.
关键词
轮式移动机器人转向机构改进的粒子群算法Matlab优化设计
Keywords
Wheeled mobile robotSteering mechanismImproved particle swarm optimizationMatlabOptimized design
references
SIMIONESCU P A,TALPASANU I.Synthesis and analysis of the steering system of an adjustable tread-width four-wheel tractor[J].Mechanism and Machine Theory,2007,42(5):526-540.
骆贤宗,高群,宗志坚,等.电动汽车转向机构的优化设计[J].机械传动,2010,34(9):82-84.
LUO Xianzong,GAO Qun,ZONG Zhijian,et al.Optimization design of electric vehicle steering mechanism[J].Journal of Mechanical Transmission,2010,34(9):82-84.
向铁明,周水庭,何明光.拖拉机转向梯形机构的MATLAB优化与转向特性分析[J].云南农业大学学报(自然科学),2015,30(2):283-288.
XIANG Tieming,ZHOU Shuiting,HE Mingguang.MATLAB optimization and steering characteristics analysis of tractor steering trapezoidal mechanism[J].Journal of Yunnan Agricultural University(Natural Science Edition),2015,30(2):283-288.
陶茂林,隋春平.小型车式移动机器人转向机构的设计与优化[J].机械设计与制造,2017(11):105-108.
TAO Maolin,SUI Chunping.Design and optimization of steering mechanism for small car mobile robot[J].Mechanical Design and Manufacturing,2017(11):105-108.
WANG H,ZHANG W M.Optimum design of integral type steering mechanism based on MATLAB[C]//International Conference on Advanced Computer Control,January 18-20,2011,Harbin.New York:IEEE,2011(10):511-514.
姚明龙,王福林.车辆转向梯形优化设计及其求解方法的研究[J].机械设计与制造,2007(5):24-26.
YAO Minglong,WANG Fulin.Research on vehicle steering trapezoidal optimization design and its solution method[J].Mechanical Design and Manufacturing,2007(5):24-26.
徐锐良,曹青梅.车辆转向梯形机构的参数优化[J].拖拉机与农用运输车,2008(1):38-40.
XU Ruiliang,CAO Qingmei.Parameter optimization of vehicle steering trapezoidal mechanism[J].Tractors and Agricultural Transport Vehicles,2008(1):38-40.
师帅兵,陈军.汽车拖拉机转向梯形优化设计[J].西北农林科技大学学报(自然科学版),2000,28(3):66-69.
SHI Shuaibing,CHEN Jun.Optimization design of steering trapezoid of automobile tractor[J].Journal of Northwest A & F University(Natural Science Edition),2000,28(3):66-69.
刘岭,闫光荣,雷毅,等.基于改进粒子群算法的车辆转向梯形机构优化[J].农业工程学报,2013,29(10):76-82.
LIU Ling,YAN Guangrong,LEI Yi,et al.Optimization of vehicle steering trapezoidal mechanism based on improved particle swarm optimization algorithm[J].Transactions of the Chinese Society of Agricultural Engineering,2013,29(10):76-82.
黄裘俊,张凯,宋锦春,等.基于改进粒子群算法的取件机械手轨迹综合优化设计[J].东北大学学报(自然科学版),2018,39(11):1636-1641.
HUANG Qiujun,ZHANG Kai,SONG Jinchun,et al.Comprehensive optimization design of picking manipulator trajectory based on improved particle swarm optimization[J].Journal of Northeastern University (Natural Science),2018,39(11):1636-1641.
王望予.汽车设计[M].4版.北京:机械工业出版社,2016:202-230.
WANG Wangyu.Automobile design[M].4th ed.Beijing:Mechanical Industry Press,2016:202-230.
高玉根.汽车转向梯形机构的遗传优化设计[J].机械设计,2014,31(11):60-62.
GAO Yugen.Genetic optimization design of automobile steering trapezoidal mechanism[J].Mechanical Design,2014,31(11):60-62.
史天泽.轮毂电机驱动电动车悬架和转向系统设计与性能匹配[D].长春:吉林大学,2015:89-94.
SHI Tianze.Design and performance matching of hub motor driven electric vehicle suspension and steering system[D].Changchun:Jilin University,2015:89-94.
李亮.8×8车辆双前桥转向机构结构优化与力学特性研究[D].北京:北京理工大学,2015:38-45.
LI Liang.Structural optimization and mechanical characteristics of 8×8 vehicle double front axle steering mechanism[D].Beijing:Beijing Institute of Technology,2015:38-45.
陆承超,陈辛波.断开式转向梯形机构的离散优化设计法[J].机械设计,2012,29(10):55-58.
LU Chengchao,CHEN Xinbo.Discrete optimization design method of disconnected steering trapezoidal mechanism[J].Mechanical Design,2012,29(10):55-58.
余胜威.MATLAB优化算法案例分析与应用(进阶篇)[M].北京:清华大学出版社,2015:202-211.
YU Shengwei.Case study and application of MATLAB optimization algorithm (Advanced article)[M].Beijing:Tsinghua University Press,2015:202-211.
HE Q,WANG L.A hybrid particle swarm optimization with a feasibility-based rule for constrained optimization[J].Applied Mathematics and Computation,2006,186(2):1407-1422.
ZHANG K,SONG J,NI K,et al.Lagrange interpolation learning particle swarm optimization[J].PLos One,2016,11(4):1-19.
温正.精通MATLAB智能算法[M].北京:清华大学出版社,2015:123-144.
WEN Zheng.Proficient in MATLAB intelligent algorithm[M].Beijing:Tsinghua University Press,2015:123-144.
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