S. Parvathy, K.C. Sindhu Thampatty, and T.N. Padmanabhan Nambiar
[1] N.G. Hingoranl, L. Gyugyi, and M.E. El-Hawary, Understanding FACTS: Concepts and technology of flexible ac transmission systems (New York, NY: Wiley, 1999). [2] H. Du, X. Wang, S.J. Yan, and Q.Y. Sun, A neural network current predictive control of STATCOM for non-linear loads, Proc. of the 2015 10th IEEE Conf. on Industrial Electronics and Applications, ICIEA 2015, Auckland, New Zealand, 2015, 1301–1306. [3] H. Shayeghi, H. Shayanfar, S. Jalilzadeh, and A. Safari, A PSO based unified power flow controller for damping of power system oscillations, Energy Conversion and Management, 50(10), 2009, 2583–2592. [4] W.-L. Li and M.-M. Li, Nonlinear adaptive robust control design for static synchronous compensator based on improved dynamic surface method, International Journal of Automation and Computing, 11(3), 2014, 334–339. [5] S. Baros and M.D. Ili´c, Multi-objective Lyapunov-based control of a STATCOM/BESS, 2015 IEEE Power and Energy Society Innovative Smart Grid Technologies Conf. (ISGT), Washington, DC, USA, 2015, 1–5. [6] M.I. Mosaad, Model reference adaptive control of STATCOM for grid integration of wind energy systems, IET Electric Power Applications, 12(5), 2018, 605–613. [7] K. Wang and M.L. Crow, Power system voltage regulation via STATCOM internal nonlinear control, IEEE Transactions on Power Systems, 26(3), 2010, 1252–1262. [8] T.K. Roy, M.A. Mahmud, W. Shen, and M.E. Haque, Robust direct power control of grid-connected photovoltaic systems based on adaptive partial feedback linearization, 2017 12th IEEE Conf. on Industrial Electronics and Applications (ICIEA), Siem Reap, Cambodia, 2017, 64–69. [9] W. Quan and Q. Su, Improved adaptive backstepping approach on STATCOM controller of nonlinear power systems, IEEE Access, 7, 2019, 139109–139117. [10] A. Isidori, Nonlinear control systems (Berlin: Springer Science & Business Media, 2013). [11] J.R. Baeza and C. Garcia, Friction compensation in pneumatic control valves through feedback linearization, Journal of Control, Automation and Electrical Systems, 29(3), 2018, 303–317. [12] M. Wang, X. Wang, J. Qiao, and L. Wang, Improved current decoupling method for robustness improvement of LCL-type STATCOM based on active disturbance rejection control, IEEE Access, 7, 2019, 121781–121792. [13] M. Mahmud, M. Hossain, H. Pota, and A.M. Oo, Robust partial feedback linearizing excitation controller design for multimachine power systems, IEEE Transactions on Power Systems, 32(1), 2016, 3–16. [14] G.S. Ilango, C. Nagamani, A. Sai, and D. Aravindan, Control algorithms for control of real and reactive power flows and power oscillation damping using UPFC, Electric Power Systems Research, 79(4), 2009, 595–605. [15] M. Chowdhury and G. Shafiullah, SSR mitigation of series-compensated dfig wind farms by a nonlinear damping controller using partial feedback linearization, IEEE Transactions on Power Systems, 33(3), 2017, 2528–2538. [16] S. Parvathy, K.C.S. Thampatty, and T.N.P. Nambiar, Modeling and non linear control of STATCOM for VAR compensation in IEEE 5 bus system, APPEEC, Bangalore, India, 2017, 1–6. [17] V. Rajendran and S. Mahalingam, Optimal allocation and sizing of facts controllers using differential evolution algorithm, Control and Intelligent Systems, 41(3), 2013, 136–142. [18] J.V. Milanovic and Y. Zhang, Global minimization of financial losses due to voltage sags with facts based devices, IEEE Transactions on Power Delivery, 25(1), 2009, 298–306. [19] B. Singh, A. Chandra, and K. Al-Haddad, Power quality: Problems and mitigation techniques (New York, NY: Wiley, 2014).
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