RBF NEURAL NETWORK PID SPACE VECTOR CONTROL OF LINEAR SERVO LOAD SIMULATOR, 207-215.

Daode Zhang, Wei Feng, Lingkang Wei, and Xinyu Hu

References

1. [1] M. Zhou, Y. Yu, and J. Yan, Modeling and design of control system for linear steering engine loading table, Measurement and Control Technology, 30(6), 2011, 53–60.
2. [2] K. Chen, Y. Huang, and L. Sun, Study on square wave loading system of electric linear rudder, Astronautical Journal, 29(5), 2008, 1516–1520.
3. [3] Q. Peng and Y. Fan, Modeling and design of measurement and control system for electric power loading table, Machine Tool and Hydraulic, 45(19), 2017, 132–135.
4. [4] H. Zhang, L. Jiao, R. Kang, and F. Wang, Fuzzy PID control of permanent magnet linear synchronous motor lifting system, Micromotors (Servotechnology), 58(06), 2004, 34–36.
5. [5] B. Yang and J. Wang, Cerebellar model control of UAV rudder surface load simulation system, Control Theory & Applications, 35(11), 2009, 1361–1365.
6. [6] L. Wang, Z. Wu, and T. Zuo, Design of self-constructed fuzzy neural network controller for permanent magnet linear motor, Journal of Electric Machines and Control, 13(05), 2009, 643–647.
7. [7] W. Zhou, Z. Wu, and J. Tang, SVPWM equivalent algorithm and the essential relationship between SVPWM and SPWM, Chinese Journal of Electrical Engineering, 26(2), 2006, 133–137.
8. [8] X. Wang, T. Xia, and X. Xu, H. Feng, Particle swarm PID space vector control of permanent magnet synchronous linear motor, Journal of Electronic Measurement and Instrument, 29(5), 2015, 655–661.
9. [9] J. Yi, H. Cai, D. Zhang, and D. Zhang, Research on steering gear control system of improved BP-PID, China Mechanical Engineering, 28(10), 2017, 1221–1226.
10. [10] M. Han and J. Liu, PID control of RBF neural network for permanent magnet synchronous linear motor, Control and Application Technology, 39(6), 2012, 29–32.
11. [11] M. Han, Research on neural network PID control system of permanent magnet synchronous linear motor (Shanghai: East China University of Technology, 2012).
12. [12] Hua C.L., Juan T., Yi M.Y., and Li S.W., Sensorless control for PMLSM based on fuzzy sliding mode observer, Applied Mechanics and Materials, 3207(556), 2014, 2270–2273.
13. [13] C. Tang and Z. Duan, Direct thrust controlled PMSLM servo system based on back stepping control, IEEJ Transactions on Electrical and Electronic Engineering, 13(5), 2018, 785–790.
14. [14] J. Guo, Research and implementation of SVPWM inverter based on DSP (Taiyuan: Taiyuan University of Science and Technology, 2014).
15. [15] W. Shao, Z. Tang, Z. Cai, and Y. Zou, Principal neuron PID vector control of permanent magnet synchronous motor based on online identification of RBF neural network, Journal of Electric Power Science and Technology, 34(02), 2007, 48–52.
16. [16] F. Wang, X.H. Sun, Z.J. Zou, and H. Li, Applied of RBF neural network in pressure and flow control system, Applied Mechanics and Materials, 3744(713), 2015, 909–914.
17. [17] Q. Wang, L. Gao, Y. Yang, J. Zhao, T. Dou, and H. Fang, A load-balanced algorithm for multi-controller placement in software-defined network, Mechatronic Systems and Control, 46(2), 2018. DOI: 10.2316/Journal.201.2018.2.201-2975.
18. [18] A. Ahmed and N. Iqbal, Adaptive anti-windup controller for actuator constrained linear control systems, Mechatronic Systems and Control, 45(1), 2017. 10.2316/Journal.201.2017.1.201-2769.

Important Links:

• Abstract
• DOI: 10.2316/J.2020.201-0040
• From Journal (201) Mechatronic Systems and Control - 2020

Go Back