Abdelghani Choucha, Abdelhafid Hellal, Lakhdar Mokrani, and Salem Arif
[1] P. Kundur, J. Paserba, V. Ajjarapu, G. Andersson, A. Bose, C. Canizares, and N. Hatziargyriou, Definition and classification of power system stability, IEEE/CIGRE joint task force on stability terms and definitions, IEEE Transactions on Power Systems, 19(2), 2004, 1387–1401. [2] P.L. Dandeno, A.N. Karas, K.R. McClymont, and W. Watson, Effect of high-speed rectifier excitation systems on generator stability limits, IEEE Transactions on Power Apparatus and Systems, 87(1), 1968, 190–196. [3] F.P. DeMello, L.N. Flannett, and J.M. Undrill, Practical approach to supplementary stabilizing from accelerating power, IEEE Transactions on Power Apparatus and Systems, 97, 1978, 1515–1522. [4] E.V. Larsen and D.A. Swann, Applying power system stabilizers, IEEE Transactions on Power Apparatus and Systems, 100(6), 1981, 3017–3046. [5] M.J. Basler and R.C. Schaefer, Understanding power system stability, Proc. 58th Annual Conf. for Protective Relay Engineers, New York, 2005, 46–67. [6] E.J. Davison and N.S. Rau, The optimal output feedback control of a synchronous machine, IEEE Power Winter Annual Meeting, New York, NY, Paper no 71TP 102-PWR, 1971, 1–10. [7] K. Rashid, H. Talaat, and R. Moret, Optimal output local control of multimachine power system, Electric Machines and Power Systems, 11(3), 1986, 89–103. [8] W.E. Norum and K.E. Bollinger, Lab and field tests of a selftuning power system stabilizer, IEEE Transactions on Energy Conversion, 8(3), 1993, 476–483. [9] A. Ghandakly and P. Idowu, Design of a model reference adaptive stabilizer for the exciter and governor loops of power generators, IEEE Transactions on Power Systems, 5(3), 1990, 887–893. [10] D.K. Chaturvedi and O.P. Malik, Generalized neuron-based adaptive PSS for multimachine environment, IEEE Transactions on Power Systems, 20(1), 2005, 358–366. [11] I. Robandi and B. Kharisma, Design of interval type-2 fuzzy logic based power system stabilizer, World academy of Science, Engineering and Technology, 41, 2008, 682–689. [12] G.N. Taranto and D. Falcao, A genetic-based control design for damping power system inter-area oscillations, Proc. 35th Conf. Decision and Control, Kobe, Japan, 1996, 4389–4394. [13] M.A. Abido and Y.L. Abdel-Magid, A Genetic-based fuzzy logic power system stabilizer for multimachine power systems, The 1997 IEEE International Conference on Systems, Man and Cybernetics, Orlando, Florida, USA, October 12–15, 1997. [14] E.A.H. Talaat, A. Abdenour, and A.A. Al-Sulaiman, Design and experimental investigation of decentralizer GA-optimized neuro-fuzzy power system stabilizer, Electrical Power and Energy System, 32, 2010, 751–759. [15] R. You, H.J. Eghbali, and M.H. Nehrir, An on-line adaptive neuro-fuzzy power system stabilizer for multi-machine systems, IEEE Transactions on Power Systems, 18(1), 2003, 470–476. [16] C.-C. Hsu and C.-Y. Yu, Robust control of interval plants using genetic algorithms, Control and Intelligent Systems, 35(2), 2007, 140–148. [17] K.H. Sedighi, T.W. Manikas, K. Ashenayi, and R.L. Wainwright, A genetic algorithm for autonomous navigation using variable-monotone paths, Ineternational Journal of Robotics and Automation, 24(4), 2009, 367–373. [18] S. Kaitwanidvilai, P. Olranthichachat, and I. Ngamroo, Weight optimization and structure specified robust H INFINITY loopshaping control of a pneumatic servo system using genetic algorithm, International Journal of Robotics and Automation, 25(3), 2010, 229–239. [19] L. Premalatha and P.V. Ranjan, Control of chaos by optimal design of DC–DC converter using genetic algorithm, Control and Intelligent Systems, 38(3), 2010, 123–129. [20] H. Du, N. Zhang, and J. Lam, Computation of robust H∞ controllers for time-delay systems using genetic algorithms, Control and Intelligent Systems, 35(4), 2007, 395-400. 141 [21] A. Abdennour, Multi-objective optimal tuning of power plant controls using genetic algorithms, Control and Intelligent Systems, 32(2), 2004, 80–88. [22] Y.L. Abdel-Magid and M.A. Abido, Optimal multi-objective design of robust power system stabilizers using genetic algorithms, IEEE Transactions on Power System, 18(3), 2003, 1125–1132. [23] K. Hongesombut and Y. Mitani, Implementation of advanced genetic algorithm to modern power system stabilization control, Power Systems Conference and Exposition, 2, 2004, 1050–1055. [24] F. Rashidi and M. Rashidi, Tuning of power system stabilizers via genetic algorithm for stabilization of power systems, Innovations in applied artificial intelligence (Berlin: Springer, 2004), 1210–1219. [25] K. Hongesombut, S. Dechanupaprittha, Y. Mitani, and I. Ngamroo, Robust power system stabilizer tuning based on multi-objective design using hierarchical and parallel micro genetic algorithm, Fifteenth Power Systems Computation Conference, Liege, Belgium, 2005. [26] S. Panda and N.P. Padhy, Power system with PSSs and FACTS controller: Modelling, simulation and simultaneous tuning employing genetic algorithm, International Journal of Electrical, Computer and Systems Engineering, 1(1), 2007, 9–18. [27] H. Alkhatib, A. Choucha, J. Duveau, A. Hellal, and S. Arif, Optimisation, localisation et réduction des stabilisateurs de puissance par algorithmes génétiques, Revue Internationale de Génie ´Electrique 2010, 13(1), 2010, 7–32. [28] T. B¨ack, Evolutionary algorithms in theory and practice (New York: Oxford University Press, 1996). [29] K. Deb, Self-adaptive genetic algorithms with simulated binary crossover, Technical Report CI-61/99, Department of Computer Science/XI, University of Dortmund, Germany, 1999. [30] J. Régnier, Conception de syst`emes hétérog`enes en génie électrique par optimisation évolutionnaire multicrit`ere, Th`ese de doctorat, Institut National Polytechnique de Toulouse, France, 2003. [31] G. Rogers, Power system oscillations (Boston, MA: Kluwer Academic Publishers, 2000). [32] J.H. Chow, J.J. Sanchez-Gasca, H. Ren, and S. Wang, Power system damping controller design using multiple input signals, IEEE Control Systems Magazine, 2000, 82–90. [33] P. Kundur, M. Klein, G.J. Rogers, and M.S. Zywno, Application of power system stabilizers for enhancement of overall system stability, IEEE Transactions on Power System, 4, 1989, 614–626. [34] P. Sauer and M. Pai, Power system dynamics and stability (Upper Saddle River, NJ: Prentice-Hall, 1998). [35] R.J. Fleming, M.A. Mohan, and K. Parvatisam, Selection of parameters of stabilizers in multi-machine power systems, IEEE Transactions on Power Apparatus and Systems, 100, 1981, 2329–2333. [36] P. Kundur, Power system stability and control, The EPRI Power System Engineering Series (New York: McGraw-Hill, Inc., 1994). [37] F. Milano, PSAT: Power system analysis toolbox, Documentation for PSAT, Version 1.3.4, 2005. [38] Y.Y. Hsu and C.L. Chen, Identification of optimum location for stabilizer applications using participation factors, IEE Proceedings C, 134(3), 1987, 238–244. [39] H. Alkhatib, J. Duveau, A. Choucha, A. Hellal, and S. Arif, Simultaneous optimization of power system stabilizer parameters, number and locations via genetic algorithms, 43rd International Universities Power Engineering Conference IEEEUPEC2008 (ISBN 978-88-89884-09-6), Padova, Italy, 2008. [40] K. Hongesombut, Y. Mitani, and K. Tsuji, An automated approach to optimize power system damping controllers using hierarchical genetic algorithms, Proc. Intelligent System Application to Power Systems, New York, 2001, 3–8. [41] K. Hongesombut, Y. Mitani, and K. Tsuji, Power system stabilizer tuning in multimachine power system based on a minimum phase control loop method and genetic algorithm, Fourteenth Power Systems Computation Conference: PSCC, Session 14, Paper 1, Sevilla, 2002, 1–7. [42] H. Alkhatib, J. Duveau, A. Choucha, A. Hellal, and S. Arif, Optimisation globale de la performance des stabilisateurs de puissance par algorithmes génétiques, Fifth International Conference on Electrical Engineering CEE’2008 (ISBN 978-99470-2076-0), Batna, Algeria, 2008.
Important Links:
Go Back
