Bibliography
[1] Changmai Papul, et.al.” Estimation of PV module parameters from the manufacturer’s datasheet
for MPP estimation”, IET Renewable Power Generation, 2020.
[2] P. J. Chan DS, “Analytical methods for the extraction of solar cell single and double
diode model parameters from iv characteristics," IEEE Trans. Electron. Devices,
1987.
[3] K. M. Kumar, A., “Performance assessment and degredation analysis of solar photovoltaic technologies: A review," Renew. Sustain. Energy Rev., 2017.
[4] L. J. Larranaga, P., “Estimation of distribution algorithms: a new tool for evolutionary computation," 2000.
[5] M. M. B. B. Brest, J., “ilshade: improved l-shade algorithm for single objective real
parameter optimization," 2016 IEEE Congress on evolutionary computation (CEC),
2016),.
[6] H. A. F. A. e. a. Mohamed, A.W., “Lshade with semi-parameter adaptation hybrid
with cma-es for solving cec 2017 benchmark problems," 2017 IEEE Congress CEC,
2016.
[7] A. M. S. P. Awad, N.H., “An ensemble sinusoidal parameter adaptation incorporated
with l-shade for solving cec2014 parameter adaptation," 2016 IEEE Congress CEC,
2016.
[8] Z. H. H. T. e. a. Wang, X., “A gaussian estimation of distribution algorithm with
random walk strategies and its application in optimal missile guidance handover for
multi-ucav in over-the-horizon air combat," IEEE Access.
[9] O. A. Hansen, N., “Completely derandomized self-adaptation in evolution strategies,"
Evol. Comput., 2001.
18
[10] H. C. W. X. e. a. Wei, Z., “Parameters identification of photovoltaic models using a
novel algorithm inspired from nuclear reaction," 2019 IEEE Congress on Evolutionary Computation CEC, 2019.
[11] Z. Z. W. Z. e. a. Hao, Q., “Parameters identifcation of photovoltaic models using
a multi-strategy success-history based adaptive differential evolution," IEEE Access,
2020.
[12] Chegaar, M., Ouennoughi, Z., Hoffmann, A., 2001. A new method for evaluating
illuminated solar cell parameters. Solid-State Electron. 45 (2), 293–296.
[13] Villalva, M.G., Gazoli, J.R., Ruppert Filho, E., 2009. Comprehensive approach to
modeling and simulation of photovoltaic arrays. IEEE Trans. Power Electron.
24 (5), 1198–1208.
[14] Cárdenas, A.A., Carrasco, M., Mancilla-David, F., Street, A., Cárdenas, R., 2016.
Experimental parameter extraction in the single-diode photovoltaic model
via a reduced-space search. IEEE Trans. Ind. Electron. 64 (2), 1468–1476.
[15] Mathew, D., Rani, C., Kumar, M.R., Wang, Y., Binns, R., Busawon, K., 2017.
Wind-driven optimization technique for estimation of solar photovoltaic
parameters. IEEE J. Photovolt. 8 (1), 248–256.
[16] Ishaque, K., Salam, Z., Taheri, H., 2011b. Simple, fast and accurate two-diode
model for photovoltaic modules. Sol. Energy Mater. Sol. Cells 95 (2), 586–594.
[17] Ibrahim, I.A., Hossain, M.J., Duck, B.C., Nadarajah, M., 2020. An improved wind
driven optimization algorithm for parameters identification of a triple-diode
photovoltaic cell model. Energy Convers. Manage. 213, 112872.
[18] Abd Elaziz, M., Oliva, D., 2018. Parameter estimation of solar cells diode models
by an improved opposition-based whale optimization algorithm. Energy
Convers. Manage. 171, 1843–1859.
19
[19] Allam, D., Yousri, D.A., Eteiba, M.B., 2016. Parameters extraction of the three
diode model for the multi-crystalline solar cell/module using Moth–Flame
Optimization Algorithm. Energy Convers. Manage. 123, 535–548.
[20] Khanna, V., Das, B.K., Bisht, D., Singh, P.K., 2015. A three diode model for
industrial solar cells and estimation of solar cell parameters using PSO
algorithm. Renew. Energy 78, 105–113.
[21] Lim, L.H.I., Ye, Z., Ye, J., Yang, D., Du, H., 2015. A linear identification of diode
models from single I–V characteristics of PV panels. IEEE Trans. Ind. Electron.
62 (7), 4181–4193.
[22] Nishioka, K., Sakitani, N., Uraoka, Y., Fuyuki, T., 2007. Analysis of multicrystalline
silicon solar cells by modified 3-diode equivalent circuit model taking
leakage current through periphery into consideration. Sol. Energy Mater. Sol.
Cells 91 (13), 1222–1227.
[23] Nunes, H.G.G., Pombo, J.A.N., Mariano, S.J.P.S., Calado, M.R.A., De Souza, J.F., 2018.
A new high-performance method for determining the parameters of PV cells
and modules based on guaranteed convergence particle swarm optimization.
Appl. Energy 211, 774–791.
[24] Soon, J.J., Low, K.S., 2015. Optimizing photovoltaic model for different cell
technologies using a generalized multidimension diode model. IEEE Trans.
Ind. Electron. 62 (10), 6371–6380.
[25] Chenouard, R., El-Sehiemy, R.A., 2020. An interval branch and bound global optimization
algorithm for parameter estimation of three photovoltaic models.
Energy Convers. Manage. 205, 112400.
20