Construction of Fuzzy Models for Dynamic Systems Using Multi-population Cooperative Particle Swarm Optimizer (original) (raw)

References

  1. Narenda, K.S., Parthasarathy, K.: Adaptive identification and control of dynamical systems using neural networks. In: Proc. of the 28th IEEE Conf. on Decision and Control, Tampa, Florida, USA, vol. 2, pp. 1737–1738 (1989)
    Google Scholar
  2. Narenda, K.S., Parthasarathy, K.: Identification and control of dynamical systems using neural networks. IEEE Trans. Neural Networks 1, 4–27 (1990)
    Article Google Scholar
  3. Sastry, P.S., Santharam, G., Unnikrishnan, K.P.: Memory neural networks for identification and control of dynamical systems. IEEE Trans. Neural Networks 5, 306–319 (1994)
    Article Google Scholar
  4. Lee, C.H., Teng, C.C.: Identification and control of dynamic systems using recurrent fuzzy neural networks. IEEE Trans. Fuzzy Syst. 8, 349–366 (2000)
    Article Google Scholar
  5. Juang, C.F.: A TSK-type recurrent fuzzy network for dynamic systems processing by neural network and genetic algorithms. IEEE Trans. Fuzzy Syst. 10, 155–170 (2002)
    Article Google Scholar
  6. Juang, C.F.: A hybrid of genetic algorithm and particle swarm optimization for recurrent network design. IEEE Trans. Syst. Man Cyber. B 34, 997–1006 (2004)
    Article Google Scholar
  7. Tseng, C.S., Chen, B.S., Uang, H.J.: Fuzzy tracking control design for nonlinear dynamical systems via T-S fuzzy model. IEEE Trans. Fuzzy Syst. 9, 381–392 (2001)
    Article Google Scholar
  8. Chow, T.W.S., Yang, F.: A recurrent neural-network-based real-time learning control strategy applying to nonlinear systems with unknown dynamics. IEEE Trans. Industrial Electronics 45, 151–161 (1998)
    Article Google Scholar
  9. Gan, C., Danai, K.: Model-based recurrent neural network for modeling nonlinear dynamic systems. IEEE Trans. Syst., Man, Cyber. 30, 344–351 (2000)
    Article Google Scholar
  10. Juang, C.F., Lin, C.T.: A Recurrent self-constructing neural fuzzy inference network. IEEE Trans. neural networks 10, 828–845 (1999)
    Article Google Scholar
  11. Wang, L.X., Mendel, J.M.: Back-propagation fuzzy systems as nonlinear dynamic systems identifiers. In: Proc. IEEE Int. Conf. Fuzzy Syst., San Diego, USA, pp. 1409–1418 (1992)
    Google Scholar
  12. Takagi, T., Sugeno, M.: Fuzzy identification of systems and its application. IEEE Trans. Syst., Man, Cyber. 15, 116–132 (1985)
    MATH Google Scholar
  13. Tanaka, K., Ikeda, T., Wang, H.O.: A unified approach to controlling chaos via an LMI-based fuzzy control system design. IEEE Trans. Circuits and Systems 45, 1021–1040 (1998)
    Article MATH MathSciNet Google Scholar
  14. Karr, C.L.: Design of an adaptive fuzzy logic controller using a genetic algorithm. In: Proc. of 4th Int. Conf. Genetic Algorithms, San Diego, USA, pp. 450–457 (1991)
    Google Scholar
  15. Wang, C.H., Hong, T.P., Tseng, S.S.: Integrating fuzzy knowledge by genetic algorithms. IEEE Trans. Evol. Comput. 2, 138–149 (1998)
    Article Google Scholar
  16. Ishibuchi, H., Nakashima, T., Murata, T.: Performance evaluation of fuzzy classifier systems for multi dimensional pattern classification problems. IEEE Trans. Syst., Man, Cyber. B 29, 601–618 (1999)
    Article Google Scholar
  17. Eberhart, R.C., Kennedy, J.: A new optimizer using particle swarm theory. In: Proc. of Int. Sym. Micro Mach. Hum. Sci., Nagoya, Japan, pp. 39–43 (1995)
    Google Scholar
  18. Kennedy, J., Eberhart, R.C.: Particle swarm optimization. In: Proc. of IEEE Int. Conf. on Neural Networks, Piscataway, NJ, pp. 1942–1948 (1995)
    Google Scholar
  19. Zhang, C., Shao, H., Li, Y.: Particle swarm optimization for evolving artificial network. In: Proc. of IEEE Int. Conf. Syst., Man, Cyber., Nashville, Tennessee, USA, vol. 4, pp. 2487–2490 (2000)
    Google Scholar
  20. Engelbrecht, A.P., Ismail, A.: Training product unit neural networks. Stability Control: Theory Appl. 2, 59–74 (1999)
    Google Scholar
  21. Mendes, R., Cortez, P., Rocha, M., Neves, J.: Particle swarms for feedforward neural network training. In: Proc. of Int. Joint Conf. on Neural Networks, Honolulu, USA, pp. 1895–1899 (2002)
    Google Scholar
  22. Angeline, P.J.: Evolutionary optimization versus particle swarm optimization: philosophy and performance difference. In: Proc. of the 7th Annual Conf. on Evolutionary Programming, San Diego, USA, pp. 601–610 (1998)
    Google Scholar
  23. Shi, Y., Eberhart, R.C.: A modified particle swarm optimizer. In: Proc. of IEEE Int. Conf. on Evolutionary Computation, Anchorage, USA, pp. 69–73 (1998)
    Google Scholar
  24. Moriartv, D.: Miikkulainen: Reinforcement learning through symbiotic evolution. Machine learning 22, 11–32 (1996)
    Google Scholar
  25. Wiegand, R.P.: An analysis of cooperative coevolutionary Algorithms. PhD thesis, George Mason University, Fairfax, Virginia, USA (2004)
    Google Scholar

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