WEIGHT OPTIMIZATION AND STRUCTURESPECIFIED ROBUST H ∞ LOOP-SHAPING CONTROL OF A PNEUMATIC SERVO SYSTEM USING GENETIC ALGORITHM

S. Kaitwanidvilai, P. Olranthichachat, and I. Ngamroo

References

  1. [1] F. Xiang & J. Wikander, Block-oriented approximate feedbacklinearization for control of pneumatic actuator system, ControlEngineering Practice, 12 (4), 2003, 387–399.
  2. [2] H. Schulte & H. Hahn, Fuzzy state feedback gain scheduling238control of servo-pneumatic actuators, Control EngineeringPractice, 12, 2004, 639–650.
  3. [3] M.-C. Shih & S.-I. Tseng, Identification and position controlof a servo pneumatic cylinder, Control Engineering Practice,3 (9), 1995, 1285–1290.
  4. [4] K. Hamiti, A. Voda-Besanqon, & H. Roux-Buisson, Positioncontrol of a pneumatic actuator under the influence of stiction,Control Engineering Practice, 4 (8), 1996, 1079–1088.
  5. [5] R. Richardson, A.R. Plummer, & M.D. Brown, Self-tuningcontrol of a low-friction pneumatic actuator under the influenceof gravity, IEEE Transactions on Control Systems, 9 (2), 2001,330–334.
  6. [6] T. Kimura, S. Hara, & T. Tomisaka, H∞ control with mirrorfeedback for a pneumatic actuator system, Proceedings of35th Conference on Decision and Control, Kobe, Japan, 1996,2365–2370.
  7. [7] T. Kimura, H. Fujioka, K. Tokai, & T. Takamori, Sampled-dataH∞ control for a pneumatic cylinder system, Proceedings of35th Conference on Decision and Control, Kobe, Japan, 1996,759–760.
  8. [8] P.R. Ouyang, W.J. Zhang, & M.M. Gupta, An adaptiveswitching learning control method for trajectory tracking ofrobot manipulators, Mechatronics, 16, 2006, 51–61.
  9. [9] W.J. Zhang, Q. Li, & L.S. Guo, Integrated design of mechanicalstructure and control algorithm for a programmable four-barlinkage, IEEE/ASME Transactions on Mechatronics, 4 (4),1999, 354–362.
  10. [10] B.S. Chen & Y.M. Cheng, A structure-specified optimal controldesign for practical applications: A genetic approach, IEEETransactions on Control System Technology, 6 (6), 1998, 707–718.
  11. [11] B.S. Chen, Y.M. Cheng, & C.H. Lee, A genetic approach tomixed H2/H∞ optimal PID control, IEEE Transactions onControl Systems, 15 (5), 1995, 51–60.
  12. [12] D. McFarlane & K. Glover, A loop shaping design procedureusing H∞ synthesis, IEEE Transactions on Automatic Control,37 (6), 1992, 759–769.
  13. [13] F.L. Lewis, C.T. Abdallah, & D.M. Dawson, Control of robotmanipulators (New York: Macmillan, 1993).
  14. [14] M.W. Spong, S. Hutchinson, & M. Vidyasagar, Robot modelingand control (New York: John Wiley & Sons, 2006).
  15. [15] W. Backe & O. Ohligschlaeger, Model of heat transfer inpneumatic chambers, Journal of Fluid Control, 20, 1989, 61–78.
  16. [16] M. Uebing & N.D. Maughan, On linear modeling of a pneu-matic servo system, Proceedings of the Fifth ScandinavianInternational Conference on Fluid Power, Linkoping, Sweden,1997, 363–378.
  17. [17] L. Ljung, System identification: Theory for the user, SecondEdition (New Jersey: Prentice-Hall, 1999).
  18. [18] K. Zhou & J.C. Doyle, Essential of robust control (New Jersey:Prentice-Hall, 1998).
  19. [19] S. Skogestad & I. Postlethwaite, Multivariable feedback controlanalysis and design, Second Edition (New York: John Wiley& Sons, 1996).
  20. [20] M. Gen & R. Cheng, Genetic algorithms and engineeringoptimization (New York: John Wiley & Sons, 2000).
  21. [21] M. Ejaz & M.N. Arbab, Automatic weight selection in H∞ loopshaping using genetic algorithm, 2006 International Conferenceon Engineering Technologies, ICET ’06, Peshawar, Pakistan,2006, 334–342.
  22. [22] A. Lanzon, Weight optimisation in H∞ loop-shaping, Auto-matica, 41, 2005, 1201–1208.
  23. [23] Metlab Robust Control Toolbox, Mathworks Co., Ltd., http://www.mathworks.com.
  24. [24] A. O’Dwyer, Handbook of PI and PID controller tuning rules,Second Edition (London: Imperial College Press, 2006).

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