H∞ observer-based decentralised fuzzy control design for nonlinear interconnected systems: an application to vehicle dynamics

References

• Befekadu, G., & Erlich, I. (2007). Robust decentralized dynamic output feedback controller design for power systems: An LMI approach. IEEE International Conference on System of Systems Engineering, (pp. 1–6). San Antonio, TX, USA.
   Google Scholar
• Boyd, S., El-Ghaoui, L., Ferron, E., & Balakrishnan, V. (1994). Linear matrix inequalities in systems and control theory. Philadelphia, PA: SIAM.
   Google Scholar
• Buckley, J.J. (1992). Universal fuzzy controllers. Automatica. 28 (6), 1245–1248.
   Web of Science ®Google Scholar
• Castro, J. (1995). Fuzzy logic controllers are universal approximator. IEEE Transactions on Systems Man and Cybernetics-part C, 25, 629–635.
   Web of Science ®Google Scholar
• Dahmani, H., Chadli, M., Rabhi, A., & Elhajjaji, A. (2010). Fuzzy uncertain observer with unknown inputs for lane departure detection. In Proceedings of the American Control Conference (ACC), (pp. 688–693). Baltimore, Maryland, USA.
   Google Scholar
• Elhajjaji, A., Chadli, M., Oudghiri, M., & Pages, O. (2006). Observer-based robust fuzzy control for vehicle lateral dynamics. In American Control Conference (ACC), (pp. 4664–4669). Manneapolis, MN, USA.
   Google Scholar
• Gao, N., Darouach, M., Alma, M., & Voos, H. (2014). H∞ decentralized dynamic-observer-based control for large-scale uncertain nonlinear systems. In International Conference on Control, Decision and Information Technologies (CoDIT). (pp. 364–369). Metz, France.
   Google Scholar
• Gao, N., Darouach, M., Alma, M., & Voos, H. (2015). Decentralized dynamic-observer-based control for large scale nonlinear uncertain systems. In American Control Conference (ACC), Palmer House Hilton. (pp. 4131–4136). Chicago.
   Google Scholar
• Guelton, K., Manamanni, N., & Jabri, D. (2010). H∞ decentralized static output feedback controller design for large scale Takagi-Sugeno systems. IEEE International Conference on Fuzzy Systems (FUZZ). (pp. 1–7). Barcelona, Spain.
   Google Scholar
• Hsiao, F.H., Chen, C.W., Liang, Y.W., Xu, S.D., & Chiang, W.L. (2005). T-S fuzzy controllers for nonlinear interconnected systems with multiple time delay. IEEE Transactions on Circuits and Systems, 52(9), 1883–1893.
   Google Scholar
• Kchaou, M., Elhajjaji, A., & Toumi, A. (2015). Non-fragile H∞ output feedback control design for continuous-time fuzzy systems. ISA Transactions, 54(2015), 3–14.
   PubMed Web of Science ®Google Scholar
• Kchaou, M., Souissi, M., & Toumi, A. (2012). A new approach to non-fragile H∞ observer-based control for discrete-time fuzzy systems. International Journal of Systems Science, 43(1), 9–20.
   Web of Science ®Google Scholar
• Koo, G., Park, J., & Joo, Y. (2008). Decentralized dynamic output feedback controller for nonlinear interconnected systems with time delay: Fuzzy logic approaches. In International Conference on Control, Automation and Systems (ICCAS). (pp. 623–626). Seoul, South Korea.
   Google Scholar
• Koo, G., Park, J., & Joo, Y. (2014). Decentralized fuzzy observer-based output-feedback control for nonlinear large-scale systems: An LMI approach. IEEE Transactions on Fuzzy Systems, 22(2), 406–419.
   Web of Science ®Google Scholar
• Latrach, C., Kchaou, M., Elhajjaji, A., & Rabhi, A. (2014). Robust H∞ Reliable Networked Static Output Feedback Control Design for Vehicle Dynamics Stability. In IEEE Multi-onference on Systems and Control (MSC). (pp. 1232–1237). Antibes, France.
   Google Scholar
• Latrach, C., Kchaou, M., Rabhi, A., & Elhajjaji, A. (2014). “H∞ networked fuzzy control for vehicle lateral dynamic with limited communication. In 19th World Congress The International Federation of Automatic Control (WC IFAC), Cape Town, South Africa (pp. 6313–6318).
   Google Scholar
• Latrach, C., Kchaou, M., Rabhi, A., & Elhajjaji, A. (2015). Decentralized networked control system design using (TS) fuzzy approach. International Journal of Automation and Computing (IJAC), 12(2), 125–133.
   Web of Science ®Google Scholar
• Lendek, Z., Babuska, R., & Schutter, B.D. (2008). Stability analysis and observer design for decentralized TS fuzzy systems. In IEEE International Conference on Fuzzy Systems (FUZZ). (pp. 631–636). Hong Kong, China.
   Google Scholar
• Liu, D., Wang, D., & Li, H. (2014). Decentralized stabilization for a class of continuous-time nonlinear interconnected systems using online learning optimal control approach. IEEE Transactions on Neural Networks and Learning Systems, 25(2), 428–428.
   Web of Science ®Google Scholar
• Mahajan, A. (2011). Optimal decentralized control of coupled subsystems with control sharing. In 50th IEEE Conference on Decision and Control and European Control Conference (CDC-ECC). (pp. 5726–5731). Orlando, FL, USA.
   Google Scholar
• Mahmoud, M., & Al-Rayyah, A. (2011). Quantized feedback stabilization of interconnected continuous time-delay systems. IMA Journal of Mathematical Control and Information, 28, 1–17.
   Web of Science ®Google Scholar
• Oudghiri, M., Rabhi, A., & Elhajjaji, A. (2014). H∞ robust observer-based control for vehicle rollover. In Proceedings of the Mediterranean Control Conference on Control and Automation ( MED). (pp. 43–48). Palermo, Italy.
   Google Scholar
• Seshadri, A., Raul, P., & Pagilla, P. (2014). Analysis and minimization of interaction in decentralized control systems with application to roll-to-roll manufacturing. IEEE Transactions on Control Systems Technology, 22(2), 520–530.
   Web of Science ®Google Scholar
• Takagi, T., & Sugeno, M. (1985). Fuzzy identification of system and its applications to modeling and control. IEEE Transactions on Systems, Man, and Cybernetics, 15, 116–132.
   Web of Science ®Google Scholar
• Tong, S., Tong, S., & Zhang, Q. (2008). Robust stabilization of nonlinear time-delay interconnected systems via decentralized fuzzy control. International Journal of Innovative Computing, Information and Control, 4, 1567–1582.
   Web of Science ®Google Scholar
• Uang, H.J., & Chen, B.S. (2000). Fuzzy decentralized controller and observer design for nonlinear interconnected systems. IEEE International Conference on Fuzzy Systems, 2, 945–948.
   Google Scholar
• Villegas, C., Corless, M., Griggs, W., & Shorten, R. (2011). A passivity based decentralized control design methodology with application to vehicle dynamics control. Journal of Dynamic Systems, Measurement and Control, 134, 1–14.
   Web of Science ®Google Scholar
• Wang, W.J., & Lin, W.W. (2005). Decentralized PDC for large-scale T-S fuzzy systems. IEEE Transactions on Fuzzy Systems, 13, 779–786.
   Web of Science ®Google Scholar
• Xiao, X., & Mao, Z. (2011). Decentralized guaranteed cost stabilization of time-delay large-scale systems based on reduced-order observers. Journal of the Franklin Institute, 348(9), 2689–2700.
   Web of Science ®Google Scholar
• Yang, F., Wand, Z., Hung, Y., & Gani, M. (2006). H∞ control for networked systems with random communication delays. Automatica, 51(3), 511–518.
   Web of Science ®Google Scholar
• Zecevic, A., & Siljak, D. (2005). Global low-rank enhancement of decentralized control for large-scale systems. IEEE Transactions on Automatic Control, 50(5), 740–744.
   Web of Science ®Google Scholar
• Zemouche, A., & Alessandri, A. (2014). A new LMI condition for decentralized observer-based control of linear systems with nonlinear interconnections. In 53rd IEEE Conference on decision and control (CDC). (pp. 3125–3130). Los Angeles, CA, USA.
   Google Scholar
• Zhu, B., Zhang, Q., & Zhang, X. (2005). Decentralized robust guaranteed cost control for uncertain T-S fuzzy interconnected systems with time delays. International Journal of Information and Systems Sciences, 1, 73–88.
   Google Scholar
• Zhu, Y., & Pagilla, P. (2007). Decentralized output feedback control of a class of large-scale interconnected systems. IMA Journal of Mathematical Control and Information, 24(1), 57–69.
   Web of Science ®Google Scholar