Non-linear robust adaptive excitation controller design in power systems based on a new back-stepping method

Author(s): K. Wang ; H. Xin ; D. Gan ; Y. Ni
DOI: 10.1049/iet-cta.2009.0534

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Author(s): K. Wang ¹ ; H. Xin ¹ ; D. Gan ¹ ; Y. Ni ²
- Affiliations: 1: School of Electrical Engineering, Zhejiang University, People's Republic of China
  2: National Key Laboratory of Power Systems in Shenzhen, Tsinghua University, People's Republic of China
Source: Volume 4, Issue 12, December 2010, p. 2947 – 2957
DOI: 10.1049/iet-cta.2009.0534 , Print ISSN 1751-8644, Online ISSN 1751-8652

This study provides a new method for non-linear robust adaptive excitation controller design for power systems. This method can be developed by using the back-stepping technique, but needs fewer conditions than the conventional methods, which is more desirable in power systems. This method is guaranteed to be robust in the presence of model errors and disturbances, and will adapt to uncertain parameters. Meanwhile, the over-parameterisation problem that usually appears in some adaptive methods is avoided. Simulations on a 4-machine-2-area power system and the East China power system demonstrate the effectiveness of the suggested method.

References

1. 1)
  - Y. Wang , D.J. Hill , R.H. Middleton , L. Gao . Transient stability enhancement and voltage regulation of power systems. IEEE Trans. Power Syst. , 620 - 627
2. 2)
  - I. Kanellakopoulos , P.V. Kokotovic , A.S. Morse . Systematic design of adaptive controllers for feedback linearizable systems. IEEE Trans. Autom. Control , 11 , 1241 - 1253
3. 3)
  - S. Jain , F. Khorrami , B. Fardanesh . Adaptive nonlinear excitation control of power systems with unknown interconnections. IEEE Trans. Control Syst. Technol. , 436 - 446
4. 4)
  - S. Fan , C.X. Mao , J.M. Lu . Real-time excitation controller using neural networks. Eng. Intell. Syst. Electr. Eng. Commun. , 151 - 156
5. 5)
  - D.Q. Gan , Z.H. Qu , H.Z. Cai . Multi machine power system excitation control design via theories of feedback linearization control and nonlinear robust control. Int. J. Syst. Sci. , 519 - 527
6. 6)
  - S.R. Kaprielian , K.A. Clements , J. Turi . Applications of exact linearization techniques for steady-state stability enhancement in a weak ac/dc system. IEEE Trans. Power Syst. , 536 - 543
7. 7)
  - Q. Lu , Y. Sun , Z. Xu , T. Mochizuki . Decentralized nonlinear optimal excitation control. IEEE Trans. Power Syst. , 1957 - 1962
8. 8)
  - J. Hao , C. Chen , L. Shi , J. Wang . Nonlinear decentralized disturbance attenuation excitation control for power systems with nonlinear loads based on the hamiltonian theory. IEEE Trans. Energy Convers. , 316 - 324
9. 9)
  - M.M. Polycarpou , P. Ioannou . A robust adaptive nonlinear control design. Automatica , 423 - 427
10. 10)
  - J.W. Chapman , M.D. Ilic , C.A. King , L. Eng , H. Kaufman . Stabilizing a multimachine power system via decentralized feedback linearizing excitation control. IEEE Trans. Power Syst. , 830 - 839
11. 11)
  - M.M. Salem , O.P. Malik , A.M. Zaki , O.A. Mahgoub , E. Abu El-Zahab . Experimental studies with simple neuro-controller based excitation controller. IEE Proc., Gener. Transm. Distrib. , 108 - 113
12. 12)
  - J.Y. Wen , S.J. Cheng , O.P. Malik . A synchronous generator fuzzy excitation controller optimally designed with a genetic algorithm. IEEE Trans. Power Syst. , 884 - 889
13. 13)
  - D. Karagiannis , A. Astolfi . Nonlinear adaptive control of systems in feedback form: an alternative to adaptive back-stepping. Syst. Control Lett. , 733 - 739
14. 14)
  - Q. Lu , S. Mei , W. Hu , F.F. Wu , Y. Ni , T. Shen . Nonlinear decentralized disturbance attenuation excitation control via new recursive design for multi-machine power systems. IEEE Trans. Power Syst. , 729 - 736
15. 15)
  - P. Kundur . (1994) Power system stability and control.
16. 16)
  - H.K. Khalil . (1988) Nonlinear systems.
17. 17)
  - Z. Lan , D.Q. Gan , L.B. Shi , Y.X. Ni , T.S. Bi . Dynamic coi-tracking concept for the control of generators in multi-machine power systems. Eur. Trans. Electr. Power , 50 - 64
18. 18)
  - R. Marino , P. Tomei . Robust adaptive state-feedback tracking for nonlinear systems. IEEE Trans. Automatic Control , 84 - 86
19. 19)
  - J. Kanniah , O.P. Malik , G.S. Hope . Excitation control of synchronous generators using adaptive regulators part i – theory and simulation results. IEEE Trans. Power Appar. Syst. , 897 - 903
20. 20)
  - Z.-P. Jiang , D.J. Hill . A robust adaptive backstepping scheme for nonlinear systems with unmodeled dynamics. IEEE Trans. Autom. Control , 1705 - 1711
21. 21)
  - Wang, X., Yau, S., Huang, J.: `A study of tracking-differentiator', Proc. 39th IEEE Conf. on Decision and Control, 2000.
22. 22)
  - C. Mao , O.P. Malik , G.S. Hope , J. Fan . An adaptive generator excitation controller based on linear optimal control. IEEE Trans. Energy Convers. , 673 - 678
23. 23)
  - O. Akhrif , F.A. Okou , L.A. Dessaint , R. Champagne . Application of a multivariable feedback linearization scheme for rotor angle stability and voltage regulation of power systems. IEEE Trans. Power Syst. , 620 - 628
24. 24)
  - K. Fregene , D. Kennedy . Stabilizing control of a high-order generator model by adaptive feedback linearization. IEEE Trans. Energy Convers. , 149 - 156

Non-linear robust adaptive excitation controller design in power systems based on a new back-stepping method

Non-linear robust adaptive excitation controller design in power systems based on a new back-stepping method

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