Mahesh Kumar and Mylavarapu Ramamoorty


  1. [1] M. Kumar, S.C. Srivastava, S.N. Singh and M. Ramamoorty, Development of a control strategy for interconnection of islanded direct current microgrids, IET Renewable Power Generation, 9, 2015, 284-296.
  2. [2] B. Wang, M. Sechilariu and F. Locment, Intelligent DC microgrid with smart grid communications: control strategy consideration and design, IEEE Transaction on Smart Grid, 3, 2012, 2148-2156.
  3. [3] M. Kumar, S.C. Srivastava and S.N. Singh, Control strategies of a DC microgrid for grid connected and islanded operations, IEEE Transaction on Smart Grid, 6, 2015, 1588-1601.
  4. [4] M. Kumar, S.N. Singh and S.C. Srivastava, Design and control of smart DC microgrid for integration of renewable energy sources, 1-7.
  5. [5] A.A.A. Radwan and Y.A.I. Mohamed, Linear active stabilization of converter-dominated DC microgrids, IEEE Transaction on Smart Grid, 3, 2012, 203-216.
  6. [6] M. Kumar, Control strategy for back-to-back VSC of DFIG in the wind power generation for smart microgrids, 1-6.
  7. [7] M. Kumar, S.C. Srivastava, S.N. Singh and M. Ramamoorty, Development of a new control strategy based on two revolving field theory for single-phase VCVSI integrated to DC microgrid, International Journal of Electrical Power & Energy Systems, 98, 2018, 290-306.
  8. [8] S. Teleke, M.E. Baran, A.Q. Huang, S. Bhattacharya and L. Anderson, Control strategies for battery energy storage for wind farm dispatching, IEEE Transaction on Energy Conversation, 24, 2009, 725-732.
  9. [9] M.A. Tankari, M.B. Camara, B. Dakyo and C. Nichita, Ultracapacitors and batteries integration for power fluctuations mitigation in wind-PV-diesel hybrid system, International Journal of Renewable Energy Research, 1, 2011, 86-95.
  10. [10] P. Karlsson and J. Svensson, DC bus voltage control for a distributed power system, IEEE Transactions on Power Electronics, 18, 2003, 1405-1412.
  11. [11] F. Lin, Z. Ma, X. You and T. Zheng, The grid connected converter control of multi-terminal DC system for wind farms, 2, 1021-1023.
  12. [12] N. Gyawali and Y. Ohsawa, Integrating fuel cell/electrolyzer/ultracapacitor system into a stand-alone microhydro plant, IEEE Transactions on Energy Conversation, 25, 2010, 1092-1101.
  13. [13] S. Mishra, G. Mallesham and A.N. Jha, Design of controller and communication for frequency regulation of a smart microgrid, IET Renewable Power Generation, 6, 2012, 248-258.
  14. [14] V. Utkin, Variable structure systems with sliding modes, IEEE Transactions on Automatic Control, 22(2), 1977, 212–222.
  15. [15] R.M. Kamel and B. Kermanshahi, Design and implementation of models for analyzing the dynamic performance of distributed generators in the micro grid part I: micro turbine and solid oxide fuel cell, Transaction on D: Computer Science & Engineering and Electrical Engineering, 17, 2010, 47-58.
  16. [16] Y. Xia, K.H. Ahmed and B.W. Williams, Wind turbine power coefficient analysis of a new maximum power point tracking technique, IEEE Transactions on Industrial Electronics, 60, 2013, 1122-1132.
  17. [17] Y. Mahmoud, W. Xiao and H.H. Zeineldin, A parameterization approach for enhancing PV model accuracy, IEEE Transactions on Industrial Electronics, 60, 2013, 5708-5716.
  18. [18] O. Tremblay and L.A. Dessaint, Experimental validation of a battery dynamic model for EV applications, Journal of World Electric Vehicle, 3, 2009, 1-10.
  19. [19] T.A. Short, Electric Power Distribution Handbook, 2004, 47.

Important Links:

Go Back