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轮式机器人轨迹跟踪控制系统的设计
引用本文:王猛,靳伍银,王安. 轮式机器人轨迹跟踪控制系统的设计[J]. 计算机测量与控制, 2017, 25(10): 102-104, 107
作者姓名:王猛  靳伍银  王安
作者单位:兰州理工大学 机电工程学院,兰州 730050,兰州理工大学 机电工程学院,兰州 730050;兰州理工大学 数字制造技术与应用教育部重点实验室,兰州 730050,兰州理工大学 机电工程学院,兰州 730050
基金项目:2016年度省自然基金B类项目:刀具热变形因素对切削系统稳定性的影响。
摘    要:针对轮式机器人轨迹跟踪控制系统误差收敛速率低、精度和实时性差的问题,采用反演控制算法并结合李雅普诺夫稳定性分析方法对轮式机器人的轨迹跟踪系统进行了优化设计;建立了轮式机器人轨迹跟踪控制系统的运动学模型,并对该模型进行位置偏差分析;在反演控制算法中引入了分部虚拟控制量,并分析和设计了其他间接受控量,提高了算法运行的效率;采用李雅普诺夫收敛定理对系统的收敛性进行分析,根据分析的结果提出了算法更加简单的控制律;利用Matlab软件的Simulink库对设计的轨迹跟踪控制系统试验研究;结果表明,与基于李雅普诺夫直接法或者迭代学习算法设计的轮式机器人轨迹跟踪控制系统相比较,设计的控制系统具有跟踪精度高、收敛速度快、实时性好的优点。

关 键 词:轨迹跟踪  误差分析  反演控制算法  李雅普诺夫收敛定理  分部虚拟控制量
收稿时间:2017-03-19
修稿时间:2017-04-23

Design of Trajectory Tracking Control System for Wheeled Robots
Wang Meng,JIN Wuyin and Wang An. Design of Trajectory Tracking Control System for Wheeled Robots[J]. Computer Measurement & Control, 2017, 25(10): 102-104, 107
Authors:Wang Meng  JIN Wuyin  Wang An
Affiliation:School of Mechanical and Electrical Engineering, Lanzhou University of Technology, Lanzhou 730050, China,School of Mechanical and Electrical Engineering, Lanzhou University of Technology, Lanzhou 730050, China;Key Laboratory of Digital Manufacturing Technology and Applications Lanzhou University of Technology, Ministry of Education, Lanzhou 730050, China and School of Mechanical and Electrical Engineering, Lanzhou University of Technology, Lanzhou 730050, China
Abstract:Aim at the shortages of slow error convergence speed, low accuracy, and poor real-time ability of trajectory tracking control system for wheeled robots, a novel control system is proposed based on Backsteping control algorithm and Lyapunov stability analysis method. In order to study the position deviation of the wheeled robots, the kinematic model is designed. In addition, the Backstepping control algorithm employ a new control strategy for segment virtual control to study and design other indirectly controlled parameters, which greatly improves the efficiency of the algorithm. The Lyapunov law is adopted to analyze the convergence of the system, and in the light of the results of stability analysis to propose a new and simple control law. Finally, Matlab/Simulink is employed to test trajectory tracking control system. The results show that the new control strategy proposed in this paper has higher accuracy, faster convergence speed and better real-time performance than the control strategy based on direct Lyapunov algorithm or iterative learning algorithm.
Keywords:trajectory tracking   error analysis   backstepping algorithm   lyapunov convergence law   segment virtual control
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