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四轮式移动机器人非完整运动控制 被引量:5

Nonholonomic Motion Control of Four-Wheeled Mobile Robot
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摘要 针对四轮式机器人做非完整运动时系统的非完整性的问题,将四轮式机器人运动规划转化为非线性控制系统的优化问题。提出了对优化变量进行浮点数编码的改进遗传算法,使系统控制精度得到改善。同时将改进的遗传算法采用最优个体保留策略,设计交叉参数和自适应变异参数,确保算法具有良好的收敛性。通过数字仿真实验,证明了该方法的对四轮式机器人非完整运动规划问题具有可操作性。 The optimal motion planning problem of four wheeled mobile robot systems, due to the nonholonomic constraints, is usually transformed into an optimal control problem of nonlinear system. The ameliorated genetic algorithm of optimal control for motion planning is presented with encoding the optimized variables with float-point number. The strategy the best individual to be reserved in the ameliorated genetic algorithm operation is applied. With appropriate crossover parameter and self-adaptive aberrance factor, the convergence of the algorithm is improved and the system's motion precision is leveraged. The numerical simulation indicates the effectiveness of the algorithm for motion control of four wheeled mobile robot systems.
作者 伍瑾斐 秦东兴 刘俊
机构地区 电子科技大学机械电子工程学院 成都信息工程学院
出处 《电子科技大学学报》 EI CAS CSCD 北大核心 2007年第2期302-304,共3页 Journal of University of Electronic Science and Technology of China
关键词 改进的遗传算法 四轮式机器人 非完整运动 最优运动控制 ameliorated genetic algorithm four-wheeled mobile robot nonholonomic motion optimal motion planning
分类号 TP242.6 [自动化与计算机技术—检测技术与自动化装置]
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  • 1彭宏,王兴华.具有Elitist选择的遗传算法的收敛速度估计[J].科学通报,1997,42(2):144-147. 被引量:18
  • 2MURRAY. R and SASTRY. S., Steering nonholonomic systems using sinusoids[ A]. Proc. of 29th IEEE Conf. on Decision and Control[ C], 1990,2097 - 2109.?A?A?A
  • 3MUKHERJEE.R and ANDERSON D P , A surface integral approach to the motion planning of nonholonomic systems[J]. ASME J of Dynamic Systems. Measurement and Control, 1994, 116(9): 315- 325.
  • 4FERNANDES C, GURVITS.L and LI Z, A variational approach to optimal nonholonomic motion planning[ A]. Proc. of IEEE International Conf. on Robot and Automation[ C].1991, 680-685.
  • 5FERNANDES C GURVITS L and LI Z , Attitude Control of a Space Platform/Manipulator Systems Using Internal Motion[ J]. The International Journal of Robotics Research, 1994, 13(4): 289 - 304.
  • 6GOLDBERG D E , Real- Coded Genetic Algorithm, Virtual Alphabets and Bloking[J]. Complex System, 1991, 5 (2): 139-167.
  • 7王小平,曹立明.遗传算法-理论、应用与软件实现[M].西安:西安交通大学出版社,2002.
  • 8戈新生,张奇志.航天器太阳阵伸展过程最优控制的遗传算法[J].力学季刊,2000,21(1):134-138. 被引量:7
  • 9戈新生,张奇志,刘延柱.基于遗传算法的空间机械臂运动规划的最优控制[J].空间科学学报,2000,20(2):185-191. 被引量:52

共引文献59

同被引文献44

  • 1岳富占,崔平远,崔祜涛.基于改进蚁群算法的星球探测机器人路径规划技术[J].控制与决策,2006,21(12):1437-1440. 被引量:11
  • 2闵颖颖,刘允刚.Barbalat引理及其在系统稳定性分析中的应用[J].山东大学学报(工学版),2007,37(1):51-55. 被引量:103
  • 3KANAYAMA I, YUTA S. Vehicle path specification by a sequence of straight lines[J]. IEEE Journal of Robotic and Automation, 1988, 4(3): 265-276.
  • 4AMIDI O. Integer mobile robot control[R]. Pittsburgh: Carnegie Mello University Robotics Institute Technical Report CMU-RI-TR- 90-17. 1990: 27-31.
  • 5KANAYAMA I, MIYAKE N. Trajectory generation for mobile robots[J]. Robotic Research, 1986, 3: 333-340.
  • 6CROWLEY J. Asynchronous control of orientation and displacement in a robotic vehicle[C]//Proc IEEE Conference on Robotics and Automation. [S.l.]: IEEE Press, 1989: 1277-1282.
  • 7SINGH S, SHIN D H. Position based path tracking for wheeled mobile robots[C]//Proc IEEE International Workshop on Intelligent Robots and Systems. [S.l.]: IEEE Press, 1989: 386-391.
  • 8KANAYAMA Y, NILIPOUR A, LELM C. A locomotion control method for autonomous vehicles[C]//IEEE Conference on Robotics and Automation. Cincinnati: IEEE Press, 1990: 384-389.
  • 9OLLERO A, AMIDI O. Predictive path tracking of mobile robots[D]. Pittsburgh, USA: Carnegie Mello University, 2003.
  • 10LINDGREN D R, HAGUE T, PROBERT SMITH P J. Relating torque and slip in an odometric model for an autonomous agricultural vehiele[J]. Autonomous Robots, 2002, 13: 73-86.

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电子科技大学学报
2007年 第2期

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