Mukul Chankaya,∗ Ikhlaq Hussain,∗∗ and Aijaz Ahmad∗


  1. [1] M. Obi and R. Bass, Trends and challenges of grid-connected photovoltaic systems: A review, Renewable and Sustainable Energy Reviews, 58, 2016, 1082–1094.
  2. [2] R. Hasan, S. Mekhilef, M. Seyedmahmoudian, and B. Horan, Grid-connected isolated PV microinverters: A review, Renewable and Sustainable Energy Reviews, 67, 2017, 1065–1080.
  3. [3] E. Pinheiro, F. Bandeiras, M. Gomes, P. Coelho, and J. Fernandes, Performance analysis of wind generators and PV systems in industrial small-scale applications, Renewable and Sustainable Energy Reviews, 110 (December 2018), 2019, 392–401.
  4. [4] V. Rallabandi, O.M. Akeyo, N. Jewell, and D.M. Ionel, Incorporating battery energy storage systems into multi-MW grid connected PV systems, IEEE Transactions on Industry Applications, 55 (1), 2019, 638–647.
  5. [5] R.K. Sharma and S. Mishra, Dynamic power management and control of a PV PEM fuel-cell-based standalone ac/dc microgrid using hybrid energy storage, IEEE Transactions on Industry Applications, 54(1), 2018, 526–538.
  6. [6] M.T. Lawder, B. Suthar, P.W.C. Northrop, et al., Battery energy storage system (BESS) and battery management system (BMS) for grid-scale applications, Proceedings of the IEEE, 102(6), 2014, 1014–1030.
  7. [7] N. Saxena, I. Hussain, B. Singh, and A.L. Vyas, Implementation of a grid-integrated PV-battery system for residential and electrical vehicle applications, IEEE Transactions on Industrial Electronics, 65 (8), 2018, 6592–6601.
  8. [8] M.O. Badawy and Y. Sozer, Power flow management of a grid tied PV-battery system for electric vehicles charging, IEEE Transactions on Industry Applications, 53(2), 2017, 1347–1357.
  9. [9] B. Singh, A. Chandra, and K. Al-Haddad, Power quality: Problems and mitigation techniques (New York, NY, USA: John Wiley & Sons, 2014).
  10. [10] B. Widrow and M.E. Hoff, Adaptive switching circuits, InIRE WESCON Convention Record 1960, 4(1), 1960, 96–104.
  11. [11] A. Gligor, C.D. Dumitru, and H.S. Grif, Artificial intelligence solution for managing a photovoltaic energy production unit, Procedia Manufacturing, 22, 2018, 626–633.
  12. [12] S. Gupta and I. Hussain, A normalized least mean logarithmic square based control of SPV grid tied system, 2016 11th Int. Conf. Ind. Inf. Syst., Roorkee, 2016, 719–723.
  13. [13] S.R. Arya and B. Singh, Performance of DSTATCOM using leaky LMS control algorithm, IEEE Journal of Emerging and Selected Topics in Power Electronics, 1 (2), 2013, 104–113.
  14. [14] S. Im and E.J. Powers, A block LMS algorithm for third-order frequency-domain Volterra filters, IEEE Signal Processing Letters, 4 (3), 1997 March, 75–78.
  15. [15] S. Shivam, I. Hussain, A. Jain, and B. Singh, Sign-error based adaptive control technique for single stage grid tied SPV system, 2016 Natl. Power Syst. Conf. NPSC, Bhubaneswar, 2016, 1–6.
  16. [16] B. Paul and P. Mythili, ECG noise removal using GA tuned signdata least mean square algorithm, 2012 IEEE International Conference on Advanced Communication Control and Computing Technologies (ICACCCT), Ramanathapuram, India, 2012, 100–103.
  17. [17] Y. Tan, Z. He, and B. Tian, A novel generalization of modified LMS algorithm to fractional order, IEEE Signal Processing Letters, 22 (9), 2015, 1244–1248.
  18. [18] S. Pradhan, S. Member, I. Hussain, and B. Singh, Performance improvement of grid-integrated solar PV system using DNLMS control algorithm, IEEE Transactions on Industry Applications, 55(1), 2019, 78–91.
  19. [19] R.C. Nongpiur, D.J. Shpak, and A. Antoniou, Application of NLMS, PNLMS, and i-PNLMS algorithms for NEXT cancellation in xDSL systems, Proc. IEEE PACRIM, 1, 2003, 418–421.
  20. [20] R.H. Kwong and E.W. Johnston, A variable step-size LMS algorithm, IEEE Transactions on Signal Processing, 40(7), 1992 July, 1633–1642.
  21. [21] J. Chen, C. Richard, Y. Song, and D. Brie, Transient performance analysis of zero-attracting LMS, IEEE Signal Processing Letters, 23(12), 2016, 1786–1790.
  22. [22] M.S. Salman, M.N.S. Jahromi, A. Hocanin, and O. Kukrer, A zero-attracting variable step-size LMS algorithm for sparse system identification, Proceedings of the Ninth International Symposium on Telecommunications (BIHTEL), Sarajevo, 2012, 1–4.
  23. [23] D. Jin, J. Chen, C. Richard, and J. Chen, Model-driven online parameter adjustment for zero-attracting LMS, Signal Processing, 152, 2018, 373–383.
  24. [24] S.S. Bhattacharjee, D. Ray, and N.V. George, Adaptive modified versoria zero attraction least mean square algorithms, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 7747, 2020, 1–5.
  25. [25] A. Kumar, Seema, B. Singh, and R. Jain, Double stage gridtied solar PV system using HC-LMS control, 2020 IEEE 9th Power India International Conference (PIICON), Sonepat, India, 2020.
  26. [26] A. Zhang, P. Liu, B. Ning, and Q. Zhou, Reweighted lp constraint LMS-based adaptive sparse channel estimation for cooperative communication system, IET Communications, 14 (?), 2020, 1384–1391.
  27. [27] F. Hua, R. Nassif, C. Richard, H. Wang, and A.H. Sayed, Diffusion LMS with communication delays: Stability and performance analysis, IEEE Signal Processing Letters, 27, 2020, 730–734.
  28. [28] R. Dogra and B.S. Rajpurohit, Sign regressor LMS algorithm based adaptive control algorithm for multi-objective solar PV generator system connected to grid, 2020 IEEE 9th Power India International Conference (PIICON), Sonepat, India, 2020.
  29. [29] D.B. Haddad, L.O. dos Santos, L.F. Almeida, G.A.S. Santos, and M.R. Petraglia, 2-norm feature least mean square algorithm, Electronics Letters, 56 (10), 2020, 516–519.
  30. [30] S. Dixit and D. Nagaria, LMS adaptive filters for noise cancellation: A review, International Journal of Electrical and Computer Engineering, 7 (5), 2017, 2520–2529.
  31. [31] N. Karami, N. Moubayed, and R. Outbib, General review and classification of different MPPT techniques, Renewable and Sustainable Energy Reviews, 68, September 2016, 1–18.
  32. [32] N. Beniwal, I. Hussain, and B. Singh, Control and operation of a solar PV-battery-grid-tied system in fixed and variable power mode, IET Generation, Transmission & Distribution, 12 (11), 2018, 2633–2641.
  33. [33] R.K. Agarwal, I. Hussain, and B. Singh, LMF-based control algorithm for single stage three-phase grid integrated solar PV system, IEEE Transactions on Sustainable Energy, 7 (4), 2016, 1379–1387.
  34. [34] J. Corcau, T.L. Grigorie, and L. Dinca, Simulation and analysis of a fuel cell/battery hybrid power supply for moreelectric aircraft, IECON Proc. Industrial Electron. Conf., 2012, 5477–5481.
  35. [35] D. Bouquain, B. Blunier, and A. Miraoui, A hybrid fuel cell/battery wheelchair – Modeling, simulation and experimentation, 2008 IEEE Vehicle Power and Propulsion Conference, Harbin, 2008, 1–6.
  36. [36] K. Javed, H. Ashfaq, and R. Singh, Analysis and sizing of hybrid energy storage system (HESS) topologies for solar 46 photovoltaic applications, International Journal of Power and Energy Systems, 39 (3), 2019, 1078–3466.
  37. [37] A.K. Singh, I. Hussain, and B. Singh, Double-stage threephase grid-integrated solar PV system with fast zero attracting normalized least mean fourth based adaptive control, IEEE Transactions on Industrial Electronics, 65 (5), 2018, 3921–3931.
  38. [38] J. Larminie and J. Lowry, Electric vehicle technology explained (New York: John Wiley & Sons, 2003).
  39. [39] A. Rakesh Kumar, D. Thangavelusamy, S. Padmanaban, and D.P. Kothari, A modified PWM scheme to improve AC power quality for MLIS using PV source, International Journal of Power and Energy Systems, 39 (1), 2019, 1078–3466.
  40. [40] S.C. Page, A.H. Anbuky, S.P. Krumdieck, and J. Brouwer, Test method and equivalent circuit modeling of a PEM fuel cell in a passive state, IEEE Transactions on Energy Conversion, 22 (3), 2007, 764–773.
  41. [41] P. Sivakumar, A. Abdul Kader, Y. Kaliavaradhan, and M. Arutchelvi, Analysis and enhancement of PV efficiency with incremental conductance MPPT technique under non-linear loading conditions, Renewable Energy, 81, 2015, 543–550.
  42. [42] N. Saxena, I. Hussain, B. Singh, and A.L. Vyas, Single phase multifunctional VSC interfaced with solar PV and bidirectional battery charger, 2016 7Th India Int. Conf. Power Electron., Patiala, 2016, 1–6.

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