Visal Raveendran, Sankara W. Shanthisree, Kanaran Swathy, Manjula G. Nair, and Carlos Alvarez-Bel


  1. [1] G.R. Chandra Mouli, M. Kefayati, R. Baldick, and P. Bauer, Integrated PV charging of EV fleet based on energy prices, V2G, and offer of reserves, IEEE Transactions on Smart Grid, 10 (2), 2019, 1313–1325.
  2. [2] V. Raveendran, R. Divya, P.C.S. Chandran, and M.G. Nair, Smart level 2 DC electric vehicle charging station with improved grid stability and battery backup, 2017 Int. Conf. on Technological Advancements in Power and Energy (TAP Energy), Kollam, India, 2017, 1–6.
  3. [3] R.H. Ashique, Z. Salam, M.J.B.A. Aziz, and A.R. Bhatti, Integrated photovoltaic-grid dc fast charging system for electric vehicle: A review of the architecture and control, Renewable and Sustainable Energy Reviews, 69, 2017, 1243–1257.
  4. [4] J. Domnguez-Navarro, R. Dufo-Lpez, J. Yusta-Loyo, J. Artal- Sevil, and J. Bernal-Agustn, Design of an electric vehicle fast-charging station with integration of renewable energy and storage systems, International Journal of Electrical Power & Energy Systems, 105, 2019, 46–58.
  5. [5] J. Channegowda, V.K. Pathipati, and S.S. Williamson, Comprehensive review and comparison of dc fast charging converter topologies: Improving electric vehicle plug-to-wheels efficiency, 2015 IEEE 24th Int. Symp. on Industrial Electronics (ISIE), Buzios, Brazil, 2015, 263–268.
  6. [6] X. Yan, B. Zhang, X. Xiao, H. Zhao, and L. Yang, A bidirectional power converter for electric vehicles in V2G systems, 2013 Int. Electric Machines Drives Conf., Chicago, IL, USA, 2013, 254–259.
  7. [7] F.H. Malik and M. Lehtonen, Minimization of queuing time of electric vehicles at a fast charging station, 2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe), Torino, Italy, 2017, 1–6.
  8. [8] M. Kesler, M.C. Kisacikoglu, and L.M. Tolbert, Vehicle-to-grid reactive power operation using plug-in electric vehicle bidirectional offboard charger, IEEE Transactions on Industrial Electronics, 61 (12), 2014, 6778–6784.
  9. [9] G. Wenzel, M. Negrete-Pincetic, D.E. Olivares, J. MacDonald, and D.S. Callaway, Real-time charging strategies for an electric vehicle aggregator to provide ancillary services, IEEE Transactions on Smart Grid, 9 (5), 2018, 5141–5151.
  10. [10] E. Sortomme and M.A. El-Sharkawi, Optimal scheduling of vehicle-to-grid energy and ancillary services, IEEE Transactions on Smart Grid, 3 (1), 2012, 351–359.
  11. [11] W. Kempton and J. Tomi, Vehicle-to-grid power fundamentals: Calculating capacity and net revenue, Journal of Power Sources, 144 (1), 2005, 268–279.
  12. [12] M.J.E. Alam, K.M. Muttaqi, and D. Sutanto, Effective utilization of available PEV battery capacity for mitigation of solar PV impact and grid support with integrated V2G functionality, IEEE Transactions on Smart Grid, 7 (3), 2016, 1562–1571.
  13. [13] V. Raveendran and M.G. Nair, Vehicle-to-grid transactions and shunt active filtering capability of smartparks equipped with modified icosΦ controller, 2014 IEEE Students’ Conf. on Electrical, Electronics and Computer Science, Bhopal, India, 2014, 1–7.
  14. [14] E. Yao, V.W.S. Wong, and R. Schober, Optimization of aggregate capacity of PEVs for frequency regulation service in day-ahead market, IEEE Transactions on Smart Grid, 9 (4), 2018, 3519–3529.
  15. [15] K. Knezovi, S. Martinenas, P.B. Andersen, A. Zecchino, and M. Marinelli, Enhancing the role of electric vehicles in the power grid: Field validation of multiple ancillary services, IEEE Transactions on Transportation Electrification, 3 (1), 2017, 201–209.
  16. [16] Y. Zheng, S. Niu, Y. Shang, Z. Shao, and L. Jian, Integrating plug-in electric vehicles into power grids: A comprehensive review on power interaction mode, scheduling methodology and mathematical foundation, Renewable and Sustainable Energy Reviews, 112, 2019, 424–439.
  17. [17] J. Hu, H. Morais, T. Sousa, and M. Lind, Electric vehicle fleet management in smart grids: A review of services, optimization and control aspects, Renewable and Sustainable Energy Reviews, 56, 2016, 1207–1226.
  18. [18] A. Aldik, A.T. Al-Awami, E. Sortomme, A.M. Muqbel, and M. Shahidehpour, A planning model for electric vehicle aggregators providing ancillary services, IEEE Access, 6, 2018, 70685–70697.
  19. [19] R.J. Bessa, M.A. Matos, F.J. Soares, and J.A.P. Lopes, Optimized bidding of a ev aggregation agent in the electricity market, IEEE Transactions on Smart Grid, 3 (1), 2012, 443–452.
  20. [20] A.S.T. Tan, D. Ishak, R. Mohd-Mokhtar, S.S. Lee, and N.R.N. Idris, Predictive control of plug-in electric vehicle chargers with photovoltaic integration, Journal of Modern Power Systems and Clean Energy, 6 (6), 2018, 1264–1276.
  21. [21] D. Ronanki and S.S. Williamson, Modular multilevel converters for transportation electrification: Challenges and opportunities, IEEE Transactions on Transportation Electrification, 4 (2), 2018, 399–407.
  22. [22] K. Sayed and H.A. Gabbar, Electric vehicle to power grid integration using three-phase three-level ac/dc converter and pi-fuzzy controller, Energies, 9 (7), 2016.
  23. [23] P.T. Pillai, R.S. Sreelekshmi, and M.G. Nair, A novel MPP tracker control for a solar fed energy storage system in electric vehicle, 2018 9th Int. Conf. on Computing, Communication and Networking Technologies (ICCCNT), Bengaluru, India, 2018, 1–6.
  24. [24] B. Karanayil, S. Ceballos, and J. Pou, Maximum power point controller for large-scale photovoltaic power plants using central inverters under partial shading conditions, IEEE Transactions on Power Electronics, 34 (4), 2019, 3098–3109.
  25. [25] O. Ibrahim, N.Z. Yahaya, N. Saad, and M.W. Umar, Matlab/simulink model of solar PV array with perturb and observe mppt for maximising PV array efficiency, 2015 IEEE Conf. on Energy Conversion (CENCON), Johor Bahru, Malaysia, 2015, 254–258.
  26. [26] R. Bhavani and N. Rathina Prabha, Simulation of reduced rating dynamic voltage restorer using SRF–ANFIS controller, International Journal of Fuzzy Systems, 20, 2018.

Important Links:

Go Back