Mukul Chankaya,∗ Ikhlaq Hussain,∗∗ and Aijaz Ahmad∗
[1] M. Obi and R. Bass, Trends and challenges of grid-connectedphotovoltaic systems: A review, Renewable and SustainableEnergy Reviews, 58, 2016, 1082–1094. [2] R. Hasan, S. Mekhilef, M. Seyedmahmoudian, and B. Horan,Grid-connected isolated PV microinverters: A review, Renew-able and Sustainable Energy Reviews, 67, 2017, 1065–1080. [3] E. Pinheiro, F. Bandeiras, M. Gomes, P. Coelho, and J.Fernandes, Performance analysis of wind generators and PVsystems in industrial small-scale applications, Renewable andSustainable Energy Reviews, 110 (December 2018), 2019,392–401. [4] V. Rallabandi, O.M. Akeyo, N. Jewell, and D.M. Ionel, In-corporating battery energy storage systems into multi-MWgrid connected PV systems, IEEE Transactions on IndustryApplications, 55 (1), 2019, 638–647. [5] R.K. Sharma and S. Mishra, Dynamic power managementand control of a PV PEM fuel-cell-based standalone ac/dcmicrogrid using hybrid energy storage, IEEE Transactions onIndustry Applications, 54(1), 2018, 526–538. [6] M.T. Lawder, B. Suthar, P.W.C. Northrop, et al., Batteryenergy storage system (BESS) and battery management system(BMS) for grid-scale applications, Proceedings of the IEEE,102(6), 2014, 1014–1030. [7] N. Saxena, I. Hussain, B. Singh, and A.L. Vyas, Implementationof a grid-integrated PV-battery system for residential andelectrical vehicle applications, IEEE Transactions on IndustrialElectronics, 65 (8), 2018, 6592–6601. [8] M.O. Badawy and Y. Sozer, Power flow management of a gridtied PV-battery system for electric vehicles charging, IEEETransactions on Industry Applications, 53(2), 2017, 1347–1357. [9] B. Singh, A. Chandra, and K. Al-Haddad, Power quality:Problems and mitigation techniques (New York, NY, USA:John Wiley & Sons, 2014). [10] B. Widrow and M.E. Hoff, Adaptive switching circuits, InIREWESCON Convention Record 1960, 4(1), 1960, 96–104. [11] A. Gligor, C.D. Dumitru, and H.S. Grif, Artificial intelligencesolution for managing a photovoltaic energy production unit,Procedia Manufacturing, 22, 2018, 626–633. [12] S. Gupta and I. Hussain, A normalized least mean logarithmicsquare based control of SPV grid tied system, 2016 11th Int.Conf. Ind. Inf. Syst., Roorkee, 2016, 719–723. [13] S.R. Arya and B. Singh, Performance of DSTATCOM usingleaky LMS control algorithm, IEEE Journal of Emerging andSelected Topics in Power Electronics, 1 (2), 2013, 104–113. [14] S. Im and E.J. Powers, A block LMS algorithm for third-orderfrequency-domain Volterra filters, IEEE Signal Processing Let-ters, 4 (3), 1997 March, 75–78. [15] S. Shivam, I. Hussain, A. Jain, and B. Singh, Sign-errorbased adaptive control technique for single stage grid tied SPVsystem, 2016 Natl. Power Syst. Conf. NPSC, Bhubaneswar,2016, 1–6. [16] B. Paul and P. Mythili, ECG noise removal using GA tuned sign-data least mean square algorithm, 2012 IEEE InternationalConference on Advanced Communication Control and Com-puting Technologies (ICACCCT), Ramanathapuram, India,2012, 100–103. [17] Y. Tan, Z. He, and B. Tian, A novel generalization of modifiedLMS algorithm to fractional order, IEEE Signal ProcessingLetters, 22 (9), 2015, 1244–1248. [18] S. Pradhan, S. Member, I. Hussain, and B. Singh, Perfor-mance improvement of grid-integrated solar PV system usingDNLMS control algorithm, IEEE Transactions on IndustryApplications, 55(1), 2019, 78–91. [19] R.C. Nongpiur, D.J. Shpak, and A. Antoniou, Applicationof NLMS, PNLMS, and i-PNLMS algorithms for NEXT can-cellation in xDSL systems, Proc. IEEE PACRIM, 1, 2003,418–421. [20] R.H. Kwong and E.W. Johnston, A variable step-size LMSalgorithm, IEEE Transactions on Signal Processing, 40(7),1992 July, 1633–1642. [21] J. Chen, C. Richard, Y. Song, and D. Brie, Transient perfor-mance analysis of zero-attracting LMS, IEEE Signal ProcessingLetters, 23(12), 2016, 1786–1790. [22] M.S. Salman, M.N.S. Jahromi, A. Hocanin, and O. Kukrer, Azero-attracting variable step-size LMS algorithm for sparse sys-tem identification, Proceedings of the Ninth International Sym-posium on Telecommunications (BIHTEL), Sarajevo, 2012,1–4. [23] D. Jin, J. Chen, C. Richard, and J. Chen, Model-drivenonline parameter adjustment for zero-attracting LMS, SignalProcessing, 152, 2018, 373–383. [24] S.S. Bhattacharjee, D. Ray, and N.V. George, Adaptive mod-ified versoria zero attraction least mean square algorithms,IEEE Transactions on Circuits and Systems II: Express Briefs,vol. 7747, 2020, 1–5. [25] A. Kumar, Seema, B. Singh, and R. Jain, Double stage grid-tied solar PV system using HC-LMS control, 2020 IEEE 9thPower India International Conference (PIICON), Sonepat,India, 2020. [26] A. Zhang, P. Liu, B. Ning, and Q. Zhou, Reweighted lp con-straint LMS-based adaptive sparse channel estimation for coop-erative communication system, IET Communications, 14 (?),2020, 1384–1391. [27] F. Hua, R. Nassif, C. Richard, H. Wang, and A.H. Sayed,Diffusion LMS with communication delays: Stability andperformance analysis, IEEE Signal Processing Letters, 27,2020, 730–734. [28] R. Dogra and B.S. Rajpurohit, Sign regressor LMS algorithmbased adaptive control algorithm for multi-objective solar PVgenerator system connected to grid, 2020 IEEE 9th PowerIndia International Conference (PIICON), Sonepat, India,2020. [29] D.B. Haddad, L.O. dos Santos, L.F. Almeida, G.A.S. San-tos, and M.R. Petraglia, 2-norm feature least mean squarealgorithm, Electronics Letters, 56 (10), 2020, 516–519. [30] S. Dixit and D. Nagaria, LMS adaptive filters for noise can-cellation: A review, International Journal of Electrical andComputer Engineering, 7 (5), 2017, 2520–2529. [31] N. Karami, N. Moubayed, and R. Outbib, General review andclassification of different MPPT techniques, Renewable andSustainable Energy Reviews, 68, September 2016, 1–18. [32] N. Beniwal, I. Hussain, and B. Singh, Control and operationof a solar PV-battery-grid-tied system in fixed and variablepower mode, IET Generation, Transmission & Distribution,12 (11), 2018, 2633–2641. [33] R.K. Agarwal, I. Hussain, and B. Singh, LMF-based controlalgorithm for single stage three-phase grid integrated solar PVsystem, IEEE Transactions on Sustainable Energy, 7 (4), 2016,1379–1387. [34] J. Corcau, T.L. Grigorie, and L. Dinca, Simulation and anal-ysis of a fuel cell/battery hybrid power supply for more-electric aircraft, IECON Proc. Industrial Electron. Conf., 2012,5477–5481. [35] D. Bouquain, B. Blunier, and A. Miraoui, A hybrid fuelcell/battery wheelchair – Modeling, simulation and experimen-tation, 2008 IEEE Vehicle Power and Propulsion Conference,Harbin, 2008, 1–6. [36] K. Javed, H. Ashfaq, and R. Singh, Analysis and sizing ofhybrid energy storage system (HESS) topologies for solar46photovoltaic applications, International Journal of Power andEnergy Systems, 39 (3), 2019, 1078–3466. [37] A.K. Singh, I. Hussain, and B. Singh, Double-stage three-phase grid-integrated solar PV system with fast zero attract-ing normalized least mean fourth based adaptive control,IEEE Transactions on Industrial Electronics, 65 (5), 2018,3921–3931. [38] J. Larminie and J. Lowry, Electric vehicle technology explained(New York: John Wiley & Sons, 2003). [39] A. Rakesh Kumar, D. Thangavelusamy, S. Padmanaban, andD.P. Kothari, A modified PWM scheme to improve AC powerquality for MLIS using PV source, International Journal ofPower and Energy Systems, 39 (1), 2019, 1078–3466. [40] S.C. Page, A.H. Anbuky, S.P. Krumdieck, and J. Brouwer,Test method and equivalent circuit modeling of a PEM fuel cellin a passive state, IEEE Transactions on Energy Conversion,22 (3), 2007, 764–773. [41] P. Sivakumar, A. Abdul Kader, Y. Kaliavaradhan, and M.Arutchelvi, Analysis and enhancement of PV efficiency withincremental conductance MPPT technique under non-linearloading conditions, Renewable Energy, 81, 2015, 543–550. [42] N. Saxena, I. Hussain, B. Singh, and A.L. Vyas, Single phasemultifunctional VSC interfaced with solar PV and bidirectionalbattery charger, 2016 7Th India Int. Conf. Power Electron.,Patiala, 2016, 1–6.
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