Page 187 - Advances in Renewable Energies and Power Technologies
P. 187
160 CHAPTER 4 Performance of MPPT Techniques of Photovoltaic Systems
[49] M. Miyatake, T. Inada, I. Hiratsuka, H. Zhao, H. Otsuka, M. Nakano, Control charac-
teristics of a Fibonacci-search-based maximum power point tracker when a photovol-
taic array is partially shaded, in: Power Electronics and Motion Control Conference,
2004. IPEMC, 2004.
[50] L. Liu, C. Liu, A novel combined particle swarm optimization and genetic algorithm
MPPT control method for multiple photovoltaic arrays at partial shading, J. Energy
Resour. Technol 135 (1) (2012) 012002.
[51] M.R. Rad, S.A. Taher, S. Akbari, A maximum power point tracker for photovoltaic ar-
rays with particle swarm optimization technique in cooperation with fuzzy cognitive
networks, in: NEEC 2010, 2010.
[52] K. Ishaque, Z. Salam, A deterministic particle swarm optimization maximum power
point tracker for photovoltaic system under partial shading condition, Ind. Electron.
IEEE Trans. 60 (8) (2013) 3195e3206.
[53] K. Ishaque, Z. Salam, A. Shamsudin, M. Amjad, A direct control based maximum po-
wer point tracking method for photovoltaic system under partial shading conditions us-
ing particle swarm optimization algorithm, Appl. Energy 99 (2012) 414e422.
[54] Q. Fu, N. Tong, A new PSO algorithm based on adaptive grouping for photovoltaic MPP
prediction, in: 2nd International Workshop on Intelligent Systems and Applications
(ISA), 2010.
[55] M.A. Hassan, M.A. Abido, Optimal design of microgrids in autonomous and grid-
connected modes using particle swarm optimization, IEEE Trans. Power Electron. 26
(3) (2011) 755e769.
[56] B. Kroposki, R. Margolis, D. Ton, Harnessing the sun, Power Energy Mag. IEEE 7 (3)
(2009) 22e33.
[57] M. Hejri, H. Mokhtari, On the parameter extraction of a five-parameter double-diode
model of photovoltaic cells and modules, Photovoltaics IEEE J. 4 (3) (2014) 915e923.
[58] S.P.J.J. Bikaneria, Modelling and simulation of PV cell based on two-diode model, Int.
J. Recent Trends Eng. Technol. 11 (2014).
[59] A.M. Eltamaly, Performance of smart maximum power point tracker under partial
shading conditions of PV systems, in: 2015 IEEE International Conference on Smart
Energy Grid Engineering (SEGE), IEEE, 2015.
[60] N.M. Shannan, N.Z. Yahaya, B. Singh, Two diode model for parameters extraction of
PV module, in: 2014 IEEE Conference on Energy Conversion (CENCON), 2014.
[61] T. Ma, H. Yang, L. Lu, Development of a model to simulate the performance character-
istics of crystalline silicon photovoltaic modules/strings/arrays, Sol. Energy 100
(February 2014) 31e41.
[62] M.A. Mohamed, A.M. Eltamaly, A.I. Alolah, Sizing and techno-economic analysis of
stand-alone hybrid photovoltaic/wind/diesel/battery power generation systems,
J. Renew. Sustain. Energy 7 (6) (2015) 063128.
[63] T. Markvart, L. Castafier, Solar Cells: Materials, Manufacture and Operation, Elsevier
Publishing Co., 2005. ISBN:13:978-1-85617-457-1.
[64] L. Castaner, S. Silvestre, Modelling Photovoltaic Systems Using PSpice, John Wiley &
Sons Ltd, Chichester, UK, 2002, ISBN 0-470-845279.
[65] www.energymatters.com.au.
[66] J. qukasiewicz, On three-valued logic, Ruch Filozoficzny 5 (1920) 170e171.
[67] L.A. Zadeh, Fuzzy Sets and Systems, in: System Theory, Polytechnic Press, New York,
1965, pp. 29e39.
[68] L.A. Zadeh, Fuzzy sets, Inf. Control 8 (3) (1965) 338e353.
