论文信息 - Fuzzy Sliding Mode Control for 6-DOF Parallel Robot Based on Support Vector Machines

Fuzzy Sliding Mode Control for 6-DOF Parallel Robot Based on Support Vector Machines

To realize the trajectory tracking control for six degrees of freedom parallel robot, a fuzzy sliding mode control strategy based on support vector machines is presented. Sliding mode control algorithm has complete adaptability to system disturbance and siring in sliding mode, which is used to automatically track the uncertainty of system parameters and external disturbance. Fuzzy algorithm is applied to improve the sliding mode control performance. Fuzzy support vector machines have strong treatment of non-linear signal and generalization ability, which is used to reduce the chattering in sliding mode control. The parameters of fuzzy support machines controller are optimized by hybrid learning algorithm, which combines least square algorithm with improved genetic algorithm, to get the optimal control performance for the object. The simulation results demonstrated that the control strategy designed gets tracking effect with high precision and speed, as well as reduces chattering of control under the condition of model error and external disturbance.

Minzhou Luo | Tao Mei | De Quan Zhu

[1] I. Bonev,et al. A new method for solving the direct kinematics of general 6-6 Stewart Platforms using three linear extra sensors , 2000 .

[2] Zhihong Man,et al. Non-singular terminal sliding mode control of rigid manipulators , 2002, Autom..

[3] Lydie Nouvelière,et al. Experimental vehicle longitudinal control using a second order sliding mode technique , 2007 .

[4] Charles C. Nguyen,et al. Adaptive control of a stewart platform-based manipulator , 1993, J. Field Robotics.

[5] Yung Ting,et al. Modeling and control for a Gough-Stewart platform CNC machine , 2004 .

[6] HongBo Guo,et al. Cascade control of a hydraulically driven 6-DOF parallel robot manipulator based on a sliding mode , 2008 .

[7] Jianjun Zhou. Experimental evaluations of a kinematic compensation control method for hydraulic robot manipulators , 1995 .

[8] Jinshou Yu,et al. Model Adaptive Control Based on a Compound Orthogonal Neural Network , 2006 .

[9] Yung Ting,et al. Modeling and control for a Gough-Stewart platform CNC machine , 2004, IEEE International Conference on Robotics and Automation, 2004. Proceedings. ICRA '04. 2004.

[10] Dong Hwan Kim,et al. Robust tracking control design for a 6 DOF parallel manipulator , 2000, J. Field Robotics.

[11] Xiufeng Zhang. RESEARCH OF PRECISE PARALLEL ROBOT CONTROL METHOD AND SYSTEM , 2004 .