This paper presents multiobjective H₂/H_∞ control design with regional pole constraints. The state feedback gain can be obtained by solving a linear matrix inequality (LMI) feasibility problem that robustly assigns the closed-loop poles in a prescribed LMI region. The proposed technique is illustrated with applications to the design of stabilizer for a typical single-machine infinite-bus (SMIB) power system. The LMI-based control ensures adequate damping for widely varying system operating conditions. The simulation results illustrate the effectiveness and robustness of the proposed stabilizer.

De Mello FP, Concordia C. Concepts of Synchronous Machine Stability as Affected by Excitation Control. IEEE Transactions on Power Apparatus Systems.1969; 88: 316-325.

P Kundur, M Klein, G Rogers, M Zywno. Application of Power System Stabilizers for Enhancement of Overall System Stability. IEEE Transactions on Power Systems. 1989; 4(2): 614-626.

Lefebvre S. Tuning of Stabilizers in Multimachine Power Systems. IEEE Transactions on Power Apparatus Systems. 1983; 102: 290-299.

Abdel-Magid YL, Abido MA. Optimal Multiobjective Design of Robust Power System Stabilizers using Genetic Algorithms. IEEE Transactions on Power Systems. Aug. 2003: 18(3); 1125- 1132.

Shivakumar R, Panneerselvam M, Lakshmipathi R. Robust Optimal Control Design for Multimachine Systems using Genetic Algorithm. International Journal of Engineering and Technology. 2010: 2(2); 97-101.

Shayeghi H, Safari A, Shayanfar HA. Multimachine Power System Stabilizers Design using PSO Algorithm. International Journal of Electrical and Electronics Engineering. 2008: 12(2); 749-756.

Chen S, Malik OP. Optimisation-Based Power System Stabilizer Design. IEEE Proceedings Part C. 1995; 142(2): 179-184.

Chen S, Malik OP. Power System Stabilizer Design Using Mu Synthesis. IEEE Transactions on Energy Conversion. 1995; 10(1): 175-181.

Mohamed Bouhamida, Mouloud A Denai. Robust Stabilizer of Electric Power Generator using H∞ with Pole Placement Constraints. Journal of Electrical Engineering. 2005; 56(7): 176-182.

H Chen, Hong Bai, Ming Liu, Zhizhong Guo. Wide-Area Robust H∞ Control with Pole Placement for Damping Inter-Area Oscillations. Power Systems Conference and Exposition, PSCE '06. IEEE PES; 2101-2108, Oct. 29 2006 - Nov. 1 2006.

Rios M, Hadjsaid N, Feuillet R, Torres A. Power System Stability Robustness Evaluation by Analysis. IEEE Transactions on Power Systems. 1999; 14(2): 648-653.

Hardiansyah, S Furuya, J Irisawa. LMI-based robust H2 controller design for damping oscillations in power systems. IEEJ Transactions on Power and Energy. 2004; 124(1): 113-120.

Rao PS, Sen I. Robust Pole Placement Stabilizer Design Using Linear Matrix Inequality. IEEE Transactions on Power Systems. 2000; 15(1): 313-319.

Seog-Joo Kim, Soonman Kwon, Young-Hyun Moon. Low-Order Robust Power System Stabilizer for Single-Machine Systems: An LMI Approach. International Journal of Control, Automation and systems. 2010; 8(3): 556-563.

Doyle JC, Glover K, Khargonekar PP, Francis BA. State-Space Solutions to Standard and Control Problems. IEEE Transactions on Automatic Control. 1989; 34: 831-847.

S Boyd, L El Ghaoui, E Feron, V Balakrishnan. Linear Matrix Inequalities in Systems and Control Theory. Philadelphia PA: SIAM Vol. 15. 1994.

P Gahinet, A Nemirovski, A Laub, M Chilali. The LMI Control Toolbox. The Mathworks Inc. 1995.

LE Ghaoui, F Delebecque, R Nikoukhah. LMITOOL: A User-friendly Interface for LMI Optimization: ENSTA/INRIA. 1995.

Khargonekar PP, Mario A Rotea. Mixed H2/H Control: A Convex Optimization Approach. IEEE Transactions on Automatic Control. 1991; 36(7): 824-837.

M Chilali, P Gahinet. Design with Pole Placement Constraints: An LMI Approach. IEEE Transactions on Automatic Control. 1996; 41(3): 358-367.

C Scherer, P Gahinet. Multiobjective Output-Feedback Control via LMI Optimization. IEEE Transaction on Automatic Control. 1997; 42(7): 896-911.

Y N Yu. Electric Power System Dynamics. New York: Academic Press. 1983.