GA/PSO Robust Sliding Mode Control of Aerodynamics in Gas Turbine

[1] Gravdahl, J. T., and Egeland, O., “Moore-Greitzer Axial Compressor Model with Spool Dynamics”, in Proc. of 36^th IEEE Conference on Decision and Control, 1997, pp. 4714–4719.Search in Google Scholar

[2] Gravdahl, J. T., and Egeland,O., “Compressor surge and rotating stall Modelling and control”, Advances in Industrial Control. Springer Verlag. London Limited, 1999.10.1007/978-1-4471-0827-6Search in Google Scholar

[3] Sari, G., Akhrif, O., and Saydy, L., “Qualitative Analysis of an Axial Compressor Model with Non-constant Speed”, in Proc. of ASME 2011 Power Conference, Vol. 1, 2011, pp. 515–524.10.1115/POWER2011-55172Search in Google Scholar

[4] Sari, G., Akhrif, O., and Saydy, L., “The impact of speed variation on the stability of variable speed axial compressors at efficient operating points”, in Proc. of American Control Conference, 2012, pp. 404–410.10.1109/ACC.2012.6314785Search in Google Scholar

[5] Sari.O., “Model analysis and nonlinear control of air compressors”, PhD thesis. Montreal University, 2014.Search in Google Scholar

[6] Sheng, H., Huang, W., Zhang, T., and Huang, X., “Robust Adaptive Fuzzy Control of Compressor Surge Using Back-stepping”, Arabian Journal for science and engineering, Vol. 39, Issue.2, pp. 9301–9308, December 2014.10.1007/s13369-014-1448-1Search in Google Scholar

[7] Moghaddam, J. J., and Madani, M., “A decoupled adaptive neuro-fuzzy sliding mode control system to control rotating stall and surge in axial compressors”, Journal of Expert Systems with Applications, Vol. 38, Issue. 4, pp. 4490–4496, April 2011.10.1016/j.eswa.2010.09.122Search in Google Scholar

[8] Zaiet, C., Akhrif, O., and Saydy, L., “Modeling and Non Linear Control of a Gas Turbine”, International Symposium on Industrial Electronics ISIE 2006, 2006, pp. 2688–2694.10.1109/ISIE.2006.296037Search in Google Scholar

[9] Fontaine, D., Liao, S., Paduano, J., and Kokotovic, P., “Nonlinear control experiments for rotating on an axial flow compressor”, in Proc. of 39^th IEEE conference on decision and control, 2000, pp. 1329–1334.Search in Google Scholar

[10] Lin, S., Yang, C., Wu, P., and Song, Z., “Fuzzy logic surge control in variable speed axial compressors”, in Proc. of 10^th IEEE International Conference on Control and Automation (ICCA), 2013, pp. 1178–1183.10.1109/ICCA.2013.6565118Search in Google Scholar

[11] Uddin, N., and Gravdahl, J.T., “Active compressor surge control using piston actuation”, in Proc. ASME 2011 Dynamic Systems and Control Conference DSCC2011, 2011, pp. 69–76.10.1115/DSCC2011-6113Search in Google Scholar

[12] Moghaddam, J. J., Farahani, M. H., and Amanifard, N., “A neural network-based slidingmode control for rotating stall and surge in axial compressors”, Journal of Applied Soft Computing, Vol.11, Issue. 1, pp. 1036–1043, January 2011.10.1016/j.asoc.2010.02.002Search in Google Scholar

[13] Sheng, H., Huang, W., and Zhang, T., “Output feedback control of surge and rotating stall in axial compressors”, Asian Journal of Control, Vol. 19, Issue 1, pp.1–7, September 2016.10.1002/asjc.1384Search in Google Scholar

[14] Debbah, A., Kharfene, H., Karboua, A., “Using Robust sliding mode controller to improving the aerodynamic performance of a gas turbine”, in Proc. of the 4^th International Seminar on New and Renewable Energies, 2016, pp. 1–6.Search in Google Scholar

[15] Lui, J., “Advanced sliding mode control for mechanical systems”. Springer. Tsinghua University Press. Beijing, 2012.Search in Google Scholar

[16] Defoort, M., Floquet, T., Kokosy, A., and Perruquetti, W., “A novel higher order sliding mode control scheme”, Journal of Systems and Control Letters Elsevier, Vol. 58, Issue. 2, pp. 102–108, 2009.10.1016/j.sysconle.2008.09.004Search in Google Scholar

[17] Tsai, C., and Wu, H., “Robust passivity-based control of weakly minimum phase nonlinear uncertain systems: An application to manipulator”, in Proc. of 7^th Asian Control Conference, ASCC, 2009, pp. 919–924.Search in Google Scholar

[18] Feher, A., Kutasi, D. N., “Modelling and control of bounded hybrid systems in power electronics”, Acta Universitatis Sapientiae, Electrical and Mechanical Engineering, Vol. 9, Issue 1, pp. 33–42, December 2017.10.1515/auseme-2017-0008Search in Google Scholar

[19] Horvath,Z., Edelmayer, A., “Robust model-based detection of faults in the air path diesel engines “, Acta Universitatis Sapientiae, Electrical and Mechanical Engineering, Vol. 7, Issue 1, pp. 5–22, December 2015.Search in Google Scholar

[20] Fodor, D., “Experimental investigation on robust control of induction motor using H_∞ output feedback”, Acta Universitatis Sapientiae, Electrical and Mechanical Engineering, Vol. 1, Issue 1, pp. 29–40, December 2009.Search in Google Scholar

[21] Chen, P.V., Chiang, C. H., and Liu, J. C., “The input/output constrained control for V/STOL aircraft dynamics under a descriptor system formulation”, Journal of Aeronautic and aviation, Vol. 41, Issue 1, pp. 43–52, January 2009.Search in Google Scholar

[22] Kelemen, A., Kutasi, N., “Lyapunov-based frequency-shift power control of inductionheating converters with hybrid resonant load”, Acta Universitatis Sapientiae, Electrical and Mechanical Engineering, Vol. 1, Issue 1, pp. 41–52, December 2009.Search in Google Scholar

[23] Leu,V. Q., Choi, H. H., and Jung, J. H., “LMI based sliding mode speed tracking control design for surface-mounted permanent magnet synchronous Motors”, Journal of Electrical Engineering and Technology, Vol. 7, Issue 4, pp. 513–523, July 2012.10.5370/JEET.2012.7.4.513Search in Google Scholar

[24] Der-Cherng, L., Ren, S. M., and Shih-Tse, S., “A Feedback Linearization Design for Compressor’s Surge Control”, in Proc. of Industrial Technology ICIT, 2008, pp. 1–6.10.1109/ICIT.2008.4608335Search in Google Scholar

[25] Boyd, S., El Ghaoui, L., Feron, E., and Balakrishnan, V., “Linear Matrix Inequalities in System and Control Theory”, SIAM. Philadelphia, 1994.10.1137/1.9781611970777Search in Google Scholar

[26] Argha, A., Li, L., SU, S. H., and Nguyen, H., “A new LMI-Based Robust Sliding Mode control for the uncertain Discrete-Time system”, in Proc. of 53^th IEEE Conference on Decision and Control, 2014, pp. 4747–4752.10.1109/CDC.2014.7040129Search in Google Scholar

[27] Mahmoud, M. S., and Soliman, H. M., “Design of Robust Power System Stabilizer Based on Particle Swarm Optimization”, Journal of Circuits and Systems, Vol. 3, pp. 82–89, 2012.10.4236/cs.2012.31011Search in Google Scholar

[28] Chen, D.Y., Liu, Y. X., Ma, X. Y., and Zhang, R. F., “No-chattering sliding mode control in a class of fractional-order chaotic systems”, Chinese Physics B, Vol. 2, No. 20, pp. 120506-1–120506-9, December 2011.10.1088/1674-1056/20/12/120506Search in Google Scholar

[29] Hu, X., Wu, L., Hu, C., and Gao, H., “Adaptive sliding mode tracking control for a flexible air-breathing hypersonic vehicle”, Journal of the Franklin Institute, Vol. 349, Issue. 2, pp. 559–577, Marsh 2012.10.1016/j.jfranklin.2011.08.007Search in Google Scholar

[30] Kumar, J., Azar, A. T., Kumar. V., and Rana K. P. S., “Design of Fractional Order Fuzzy Sliding Mode Controller for Nonlinear Complex Systems”, Chapter 9, Advances in Nonlinear Dynamics and Chaos (ANDC) Elsevier, pp. 249–282, 2018.10.1016/B978-0-12-813592-1.00009-XSearch in Google Scholar

[31] Panda, S., and Padhy, N, P., “Comparison of particle swarm optimization and genetic algorithm for FACTS-based controller design”, Elsevier Applied Soft Computing, Vol. 8, Issue. 4, pp. 1418–1427, September 2008.10.1016/j.asoc.2007.10.009Search in Google Scholar

[32] Laminia, C., Benhlimab, S., and Elbekria, A., “Genetic Algorithm Based Approach for Autonomous Mobile Robot Path Planning”, Journal of Procedia Computer Science Elsevier, Vol. 127, pp. 180–189, 2018.10.1016/j.procs.2018.01.113Search in Google Scholar

[33] Khan, A. A., and Mir, R. N., “Optimization of Constrained Function Using Genetic Algorithm”, Journal of Computer Engineering and Intelligent System, Vol. 8, No. 2, pp. 11–15, 2017.Search in Google Scholar

[34] Deb, K., “An Efficient Constraint Handling Method for Genetic Algorithm. Computer Methods in Applied Mechanics and Engineering”, Journal of Computer Methods in Applied Mechanics and Engineering Elsevier, Vol. 186, Issue 2–4, pp. 311–338, June 2000.10.1016/S0045-7825(99)00389-8Search in Google Scholar

[35] Kramer, O., “A Review of Constraint-Handling Techniques for Evolution Strategies”, Journal of Applied Computational Intelligence and Soft Computing, Vol. 2010, pp. 1–11, January 2010.10.1155/2010/185063Search in Google Scholar

[36] Yanzhi, R., and Sanyang, L., “Modified particle swarm optimization algorithm for engineering structural optimization problem”, in Proc. of 13^th International Conference on Computational Intelligence and Security, 2017, pp. 504–507.Search in Google Scholar

[37] Satpati, B., Koley,C., and Datta, S., “Robust PID controller design using particle swarm optimization-enabled automated quantitative feedback theory approach for a first-order lag system with minimal dead time”, Journal of Systems Science & Control Engineering, Vol. 2, Issue 1, pp. 502–511, April 2014.10.1080/21642583.2014.912570Search in Google Scholar

[38] Juneja, M., and Nagar, S.K., “Particle swarm optimization algorithm and its parameters: A review”, in Proc. of International Conference on Control. Computing Communication and Materials (ICCCCM), 2016, pp. 1–5.10.1109/ICCCCM.2016.7918233Search in Google Scholar