Tripti Kunj, Anand Mohan, and Kirti Pal


  1. [1] IEA (2018), Global EV Outlook 2018, IEA, Paris
  2. [2] IEA (2018), Renewables 2018, IEA, Paris
  3. [3] J. Ugirumurera and J. Z. Haas, Optimal capacity sizing forcompletely green charging systems for electric vehicles, IEEETransactions on Transportation Electrification, 3(3), 2017,565–577.
  4. [4] G.R.C. Mouli, J. Schijffelen, M. van den Heuvel, M. Kardolus,and P. Bauer, A 10 kW solar-powered bidirectional EV chargercompatible with chademo and COMBO, IEEE Transactionson Power electronics, 34(2), 2018, 1082–1098.
  5. [5] V. Monteiro, J. Gabriel Pinto, and J.L. Afonso, Experimentalvalidation of a three-port integrated topology to interfaceelectric vehicles and renewables with the electrical grid,IEEE Transactions on Industrial Informatics, 14(6), 2018,2364–2374.
  6. [6] A.S. Singh, C. Giampaolo, N.A. Azeez, and S.S. Williamson,Modeling, design, control, and implementation of a modifiedZ-source integrated PV/grid/EV DC charger/inverter, IEEETransactions on Industrial Electronics, 65(6), 2017, 5213–5220.
  7. [7] K. Chaudhari, A. Ukil, K. Nandha Kumar, U. Manandhar,and S.K. Kollimalla, Hybrid optimization for economicdeployment of ESS in PV-integrated EV charging stations,IEEE Transactions on Industrial Informatics, 14(1), 2017,106–116.
  8. [8] F. Kineavy and M. Duffy, Modelling and design of electricvehicle charging systems that include on-site renewable energysources, In Proc. IEEE 5th International Symposium on PowerElectronics for Distributed Generation Systems (PEDG),pp. 1–8. 2014.
  9. [9] Y. Zhang, P. You, and L. Cai, Optimal charging schedulingby pricing for EV charging station with dual charging modes,IEEE Transactions on Intelligent Transportation Systems,20(9), (2018), 3386–3396.
  10. [10] Y. Yang, Q.–S. Jia, G. Deconinck, X. Guan, Z. Qiu, and Z. Hu,Distributed coordination of EV charging with renewable energyin a microgrid of buildings, IEEE Transactions on Smart Grid9(6), 2017, 6253–6264.
  11. [11] Kandasamy, N. Kumar, K. Kandasamy, and K.J. Tseng, Loss-of-life investigation of EV batteries used as smart energy storagefor commercial building-based solar photovoltaic systems, IETElectrical Systems in Transportation 7(3), 2017, 223–229.
  12. [12] A. Tavakoli, M. Negnevitsky, D.T. Nguyen, and M.M. Kashem,Energy exchange between electric vehicle load and windgenerating utilities, IEEE Transactions on Power Systems31(2), 2015, 1248–1258.
  13. [13] Y. Shan, J. Hu, K.W. Chan, Q. Fu, and M.G. Josep,Model predictive control of bidirectional DC–DC convertersand AC/DC interlinking converters—A new control methodfor PV-wind-battery microgrids, IEEE Transactions onSustainable Energy, 10(4), 2018, 1823–1833.
  14. [14] P. Liu, J. Yu, and E. Mohammed, Decentralised PEVcharging coordination to absorb surplus wind energy viastochastically staggered dual-tariff schemes consideringfeeder-level regulations,” IET Generation, Transmission &Distribution, 12(15), 2018, 3655–3665.
  15. [15] B. Singh, A. Verma, A. Chandra, and K. Al-Haddad,Implementation of solar PV-battery and diesel generatorbased electric vehicle charging station, IEEE Transactions onIndustry Applications, 56(4), 2020, 4007–4016.
  16. [16] N. Saxena, B. Singh, and A.L. Vyas, Integration of solarphotovoltaic with battery to single-phase grid, IET Generation,Transmission & Distribution, 11(8), 2017, 2003–2012.
  17. [17] H. Razmi, and H. Doagou-Mojarrad, Comparative assessmentof two different modes multi–objective optimal powermanagement of micro-grid: grid-connected and stand-alone,IET Renewable Power Generation, 13(6), 2019, 802–815.
  18. [18] O. Erdinc, G.P. Nikolaos, T.D.P. Mendes, G.B. Anastasios,and J.P.S. Catal˜ao, Smart household operation consideringbi-directional EV and ESS utilization by real-time pricing-based DR, IEEE Transactions on Smart Grid, 6(3), 2014,1281–1291.
  19. [19] H. Kikusato, K. Mori, S. Yoshizawa, Y. Fujimoto, H. Asano,Y. Hayashi, A. Kawashima, S. Inagaki, and T. Suzuki,Electric vehicle charge–discharge management for utilizationof photovoltaic by coordination between home and grid energymanagement systems, IEEE Transactions on Smart Grid,10(3), 2018, 3186–3197.
  20. [20] F. Hafiz, A.R. de Queiroz, and I. Husain, Coordinated controlof PEV and PV-based storages in residential systems undergeneration and load uncertainties, IEEE Transactions onIndustry Applications, 55(6), 2019, 5524–5532.
  21. [21] K. Tripti and K. Pal, EVs Owner benefit evaluationthrough energy exchange in the smart radial distributionnetwork,” Electric Power Components and Systems, Aug. 2023.DOI: 10.1080/15325008.2023.224078
  22. [22] Wies, W. Richard, R.A. Johnson, A. N. Agrawal, andT.J. Chubb, Simulink model for economic analysis andenvironmental impacts of a PV with diesel-battery system forremote villages, IEEE Transactions on Power Systems, 20(2),2005, 692–700.
  23. [23] U. Dharmalingam and V. Arumugam, Optimal energymanagement in EVCS and distribution system considering QoSusing hybrid technique, Artificial Intelligence Review, 2023,1–30.
  24. [24] T. Kokilavani, D. Gunapriya, V. Govindaraj, N. Pusphalatha,N. Hemalatha, V. Sharma, and A. Alkhayyat, Electricvehicle charging station with effective energy management,integrating renewable and grid power, In Proc. 2023 3rdInternational Conference on Innovative Practices in Technologyand Management (ICIPTM), pp. 1–5. 2023.
  25. [25] D.R. Priya, R.K. Srithika, V.T.S. Narayani, R. Thelagavathy,and T. Malini, Solar powered energy management system forelectric vehicle and grid based home automation, In Proc.IEEE 2023 9th International Conference on Electrical EnergySystems (ICEES), pp. 476–480. 2023.
  26. [26] M. Khanra and A.Kr Nandi, Influence of trip complexity onoptimal driving based energy management system of electricvehicle, In Proc. IEEE 2019 International Conference on Com-munication and Electronics Systems (ICCES), pp. 334–339.2019.
  27. [27] S. Tripathi, P.K. Gurjar, C.P. Barala, P. Mathuria, andR. Bhakar, The future of transportation: a review of electricvehicle charging management and navigation, In Proc. IEEE2023 International Conference for Advancement in Technology(ICONAT), pp. 1–6., 2023.
  28. [28] R.R. Chilipi, N.Al Sayari, A.R. Beig, and K. Al Hosani, Amultitasking control algorithm for grid-connected invertersin distributed generation applications using adaptive noisecancellation filters, IEEE Transactions on Energy Conversion,31(2), 2016, 714–727.

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