-stroke-width: 0px; "> [1] B. Yafaoui, andR. C. Wu, “Photovoltaic energy system part 2: System
control technology,” IEEE Canadian Review, vol.61, pp.14–17, 2009.
[2] D. Hohm, and M. Ropp, “Comparative study of maximum power point
tracking algorithms using an experimental, programmable, maximum
power point tracking test bed,” IEEE Conference Record of the
Photovoltaic Specialists, pp. 16991-702, 2000.
[3] O. C. Noureddine, M.Abdelkader, B. Mohamed-Seghir,B. Linda, “Robust
Controller to Extract the Maximum Power of a Photovoltaic System ,”
Journal of Electrical and Electronics Engineering, vol. 1, pp.117–122,
2014.
[4] P. A. Lehman, C. E. Chamberlin, G. Pauletto, and M. A. Rocheleau,
“Operating experience with a photovoltaic-hydrogen energy system,”
presented at the Hydrogen 1994: 10th World Hydrogen Energy Conf.,
Cocoa Beach, FL, Jun.
[5] V. Salas, E. Olias, A. Barrado, and A. Lazaro, Review of the maximum
power point tracking algorithms for stand-alone photovoltaic systems,
Solar Energy Mater, Solar Cells, vol. 90, pp. 1555– 1578, 2006.
[6] K. H. Hussein, I. Muta, T. Hoshino, and M. Osakada, Maximum
photovoltaic power tracking: An algorithm for rapidly changing : 0px; "> atmospheric condition, Proc. Inst. Electr. Eng., Gen. Transmiss. Distrib.,
vol. 142, no. 1, pp. 59–64, 1995.
[7] G.J.Yu, Y.S.Jung, J.Y.Choi, I.Choy, J.H.Song and G.S.Kim, A Novel
Two-Mode MPPT Control Algorithm Based on Comparative Study of
Existing Algorithms, Proc. Photovoltaic Specialists Conference, pp. 1531-
1534, 2002.
[8] A. Mellit and Kalogirou, Soteris A, MPPT-based artificial intelligence
techniques for photovoltaic systems and its implementation into field
programmable gate array chips, Energy, 2014 .
[9] T. Noguchi, S. Togashi and R. Nakamoto, ShortCurrent Pulse-Based
Maximum-Power-Point Tracking Method for Multiple PhotovoltaicandConverter Module System, IEEE Trans. Ind. Electron., vol. 49, no.1,
pp. 217-223, 2002.
[10] D.Y. Lee, H.J. Noh, D.S. Hyun and I.Choy, An Improved MPPT
Converter Using Current Compensation Method for Small Scaled
PVApplications, Proc. APEC, pp. 540-545, 2003,.
[11] M. Park and I.K. Yu, A Study on Optimal Voltage for MPPT Obtained by
Surface Temperature of Solar Cell, Proc. IECON, pp. 2040-2045, 2004.
[12] J. K. Hedrick and A. Girard, Control of Nonlinear Dynamic Systems:
Theory and Applications, 2005.
[13] E.Kamal A. Aitouche, Robust Scheduler fuzzy Controller of DFIG Wind
Energy Systems, IEEE Trans. Sustainable Energy, vol. 4, no. 3, pp.706-
715, 2013.
[14] Mei Shan Ngan ,Chee Wei Tan, A study of maximum power point tracking
algorithms for stand-alone Photovoltaic Systems, Applied Power
Electronics Colloquium (IAPEC), 2011 IEEE, vol. 22 - 27, pp. 978-1-
4577-0007-1
[15] Sera.D, Kerekes, T. , Teodorescu, R. ;and Blaabjerg, F. , Improved MPPT
Algorithms for Rapidly Changing Environmental Conditions, Power
Electronics and Motion Control Conference, EPE-PEMC 2006, vol. 1-
4244-0121-6, pp. 1614 - 1619, 2006.
[16] Faranda, R. Leva, S. , Maugeri, V., MPPT techniques for PV Systems:
Energetic and cost comparison, Power and Energy Society General
Meeting - Conversion and Delivery of Electrical Energy in the 21st
Century,IEEE, pp. 1-6, 2008.
[17] T. Tafticht, K. Agbossou, , M.L. Doumbia, A. Chériti, An improved
maximum power point tracking method for photovoltaic systems,
ELSEVIER. Renewable EnergyVolume 33, Issue 7, July 2008, Pages
1508–1516
[18] N. HARRABI, M. SOUISSI, A. AITOUCHE, “Maximum Power Control
for Photovoltaic Power based on Fuzzy Takagi-Sugeno Model ,” papier
journal JEE.2014. xt-stroke-width: 0px; "> 19] C.S. Chiu, TS fuzzy maximum power point tracking control of solar power
generation systems, IEEE Trans. Energy Convers, vol. 25, no 4, pp. 1123-
1132, 2010.
[20] C. Larbes , A. Cheikh, S.M Obeidi, T. and Zerguerras, Genetic algorithms
optimized fuzzy logic control for the maximum power point tracking in
photovoltaic system, Renewable Energy,vol.34, no. 10 ,pp. 2093-2100,
2009.
[21] A.F. Boehinger, Self adaptive DC converter for solar spacecraft power
supply, IEEE Trans. Aerospace and Electronic Sys., AES-4, (1), pp. 102–
111, 1968.
[22] J.-A. Jiang, T.-L.Huang; Y.-T. Hsiao, and C.-H. Chen, “Maximum Power
Tracking for Photovoltaic Power Systems,”Journal of Science and
Engineering, vol. 8, no 2, pp. 147-153, 2005.
[23] C. Yin YangQuan, C.S.-M. Zhong , “Robust stability and stabilization of
uncertain fractional-order descriptor nonlinear system,” Preprints of the
19th World Congress The International Federation of Automatic Control
Cape Town, South Africa. August 24-29, 2014.
[24] Z. Salameh, D. Taylor, Step-up maximum power point tracker for
photovoltaic arrays, Solar Energy, vol. 44, no. 1 ,pp. 57–61,1990.
[25] W. Denizinger, Electrical power subsystem of globlastar, Proceedings of
the European Space Conference, pp. 171–174, 1995.
[26] W.J.A. Teulings, J.C. Marpinard, A. Capel, A maximum power point
tracker for a regulated power bus, Proceedings of the European Space
Conference, 1993.
[27] Y. Kim, H. Jo, D. Kim , A new peak power tracker for cost-effective
photovoltaic power systems, IEEE Proc. Energy Conversion Eng. Conf.
IECEC 96,vol.3, pp. 1673–1678, 1996.
[28] Ch. Hua, J. Lin, Ch. Shen , Implementation of a DSP-controlled PV system
with peak power tracking, IEEE Trans. Ind. Electron., vol. 45, no.1,pp. 99–
107,1998.
[29] H. Al-Atrash, I. Batarseh, K. Rustom, Statistical modeling of DSP-based
hill-climbing MPPT algorithms in noisy environments, Applied Power
Electronics Conference and Exposition, APEC 2005, Twentieth Annual
IEEE, vol. 3, 2005, pp. 1773–1777 , 2005.
[30] A. Chouder, F. Guijoan and S. Silvestre , Simulation of fuzzy-based MPP
tracker and performance comparison with perturb & observe method,
Revue des Energies Renouvelables, vol. 11, no.4, pp.577 –586, 2008.
[31] J.L. Santos, F. Antunes, A. Chehab, C. Cruz , A maximum power point
tracker for PV systems using a high performance boost converter , Solar
Energy, vol. 80, no.7, pp. 772–778, 2006.
[32] X. Liu, L.A.C. Lopes, An improved perturbation and observation
maximum power point tracking algorithm for PV arrays, IEEE 35th
)
View on SCiNiTO