APPLICATION OF VARIABLE UNIVERSE ADAPTIVE FUZZY CONTROL SYSTEM IN ELECTRIC CYLINDER CONTROL

Deng Hao

References

  1. [1] T. Weier, G. Gerbeth, G. Mutschke, et al., Experiments on cylinder wake stabilization in an electrolyte solution by means of electromagnetic forces localized on the cylinder surface, Experimental Thermal and Fluid Science, 16(1–2), 1998, 84–91.
  2. [2] Y. Zhenzhong, W. Jianqin, F. Zhuoyi, et al., An investigation of optimum control of ignition timing and injection system in an in-cylinder injection type hydrogen fueled engine, International Journal of Hydrogen Energy, 27(2), 2002, 213–217.
  3. [3] S.J. Kim and C.M. Lee, Control of flows around a circular cylinder: Suppression of oscillatory lift force, Fluid Dynamics Research, 29(1), 2001, 47.
  4. [4] V. Oruc, Passive control of flow structures around a circular cylinder by using screen, Journal of Fluids and Structures, 33, 2012, 229–242.
  5. [5] Z. Quan, L. Quan, and J. Zhang, Review of energy efficient direct pump controlled cylinder electro-hydraulic technology, Renewable and Sustainable Energy Reviews, 35, 2014, 336–346.
  6. [6] G. Zhang, Study on the position control of electric cylinder based on fuzzy adaptive PID, International Journal of Robotics and Automation, 35(3), 2020, 242–247.
  7. [7] S. Cauet, P. Coirault, and M. Njeh, Diesel engine torque ripple reduction through LPV control in hybrid electric vehicle powertrain: Experimental results, Control Engineering Practice, 21(12), 2013, 1830–1840.
  8. [8] L. Wang, K. Xiao, L. de Lillo, et al., PI controller relay autotuning using delay and phase margin in PMSM drives, Chinese Journal of Aeronautics, 27(6), 2014, 1527–1537.
  9. [9] A. Accetta, M. Cirrincione, and M. Pucci, TLS EXIN based neural sensorless control of a high dynamic PMSM, Control Engineering Practice, 20(7), 2012, 725–732.
  10. [10] Z. Wang, R. Jon, and C. Luo, Robust speed estimation of sensorless PMSM based on neural networks adaptive observer, International Journal of Robotics and Automation, 31(5), 2016, 428–438.
  11. [11] A.M. Shivapuji and S. Dasappa, In-cylinder investigations and analysis of a SI gas engine fuelled with H2 and CO rich syngas fuel: Sensitivity analysis of combustion descriptors for engine diagnostics and control, International Journal of Hydrogen Energy, 39(28), 2014, 15786–15802.
  12. [12] Y. Guo and H. Long, Self organizing fuzzy sliding mode controller for the position control of a permanent magnet synchronous motor drive, Ain Shams Engineering Journal, 2(2), 2011: 109–118.
  13. [13] S. Cheng and C.W. Li, Fuzzy PDFF-IIR controller for PMSM drive systems, Control Engineering Practice, 19(8), 2011, 828– 835.
  14. [14] C.L. Chiang and C.T. Su, Tracking control of induction motor using fuzzy phase plane controller with improved genetic algorithm, Electric Power Systems Research, 73(2), 2005, 239–247.
  15. [15] C. Son, Intelligent robotic path finding methodologies with fuzzy/crisp entropies and learning, International Journal of Robotics and Automation, 26(3), 2011, 323–336.
  16. [16] M. Last and S. Eyal, A fuzzy-based lifetime extension of genetic algorithms, Fuzzy Sets and Systems, 149(1), 2005, 131–147.
  17. [17] L. Ming, G. Zailin, and Y. Shuzi, Mobile robot fuzzy control optimization using genetic algorithm, Artificial Intelligence in Engineering, 10(4), 1996, 293–298.
  18. [18] D. Hu, H. Li, and X. Yu, The information content of fuzzy relations and fuzzy rules, Computers and Mathematics with Applications, 57(2), 2009, 202–216.
  19. [19] T. Yanhua and L. Hongxing, Faired MISO B-spline fuzzy systems and its applications, Mathematical Problems in Engineering, 2013.
  20. [20] X. Gong, H. Li, G. Deng, et al., Variable universe adaptive fuzzy control on the triple inverted pendulum and choosing contraction-expansion factor, in 2009 International Conference on Artificial Intelligence and Computational Intelligence, vol. 4 (IEEE, 2009), 63–67.
  21. [21] G. Haigang, L. Hongxing, Z. Weijing, et al., Direct adaptive fuzzy sliding mode control with variable universe fuzzy switching term for a class of MIMO nonlinear systems, Mathematical Problems in Engineering, 2012.
  22. [22] Y. Zhang, J. Wang, and H. Li, Stabilization of the quadruple inverted pendulum by variable universe adaptive fuzzy controller based on variable gain H regulator, Journal of Systems Science and Complexity, 25(5), 2012, 856–872.
  23. [23] B. Zhang, H. Li, and H. Guo, A new hyperchaotic system and the synchronization using active variable universe adaptive fuzzy controller, Mathematical Problems in Engineering, 2013.

Important Links:

Go Back