References
- Achilles, S., Schramm, S., and Bebic, J., 2008. Transmission system performance analysis for high-penetration photovoltaics. National Renewable Energy Laboratory subcontract with DOE. NREL/SR-581-42300, February, Niskayuna, NY: GE Global Research. Available from: http://www1.eere.energy.gov/solar/pdfs/42300.pdf [Accessed 8 June 2010].
- Altas, I.H. and Sharaf, A.M., 2007. A photovoltaic array simulation model for Matlab–Simulink GUI environment. Presented in the IEEE International Conference on Clean Electrical Power, May 21–23, Capri, Italy.
- Betten, J. and Kollman, R., 2005. Interleaving dc/dc converters boost efficiency and voltage. Texas Instruments, October 13. USA: Electronics Design Network (EDN). Available from: http://www.edn.com/contents/images/6262543.pdf [Accessed 12 August 2010].
- Bollen, M.H.J., 2000. Understanding power quality problems: voltage sags and interruptions. IEEE Press Series on Power Engineering. IEEE Press, New York, 85–86, ISBN 978-0-7803-4713-7.
- Durán, E., et al., 2009. An application of interleaved DC–DC converters to obtain I-V characteristic curves of photovoltaic modules. 34th Annual Conference on Industrial Electronics, November 10–13 2008, IEEE Conference Publication, Orlando, FL, 2284–2288.
- Freris, L. and Infield, D., 2008. Renewable energy in power systems. West Sussex: John Wiley & Sons Ltd., 57–58. ISBN 978-0-470-01749-4 (H/B).
- Kamal, L. and Jafri, Y.Z., 1999. Stochastic modeling and generation of synthetic sequences of hourly global solar irradiation at Quetta, Pakistan. Elesevier Journal on Renewable Energy, 18 (4), 565–572. doi: 10.1016/S0960-1481(99)00003-8
- Kim, C.-K., et al., 2009. HVDC transmission: power conversion applications in power systems. United Kingdom: John Wiley & Sons Ltd., 3–5.
- Li, Y.Z. and Niu, J.C., 2009. Forecast of power generation for grid connected photovoltaic system based on Markov chain. IEEE Power and Energy Conference of Asia Pacific, March 28–31, Wuhan, China, 1–4.
- Liccardo, F., et al., 2007. Interleaved dc–dc converters for photovoltaic modules. IEEE International Conference on Clean Electrical Power, May 21–23, IEEE publisher, Italy, 201–207.
- Loeve, M., 1977. Probability theory. In: Graduate texts in mathematics. Volume 45, 4th ed. Michigan: Springer-Verlag, 12.
- Luque, A. and Hegedus, S., 2005. Handbook for photovoltaic science and engineering. West Sussex: John Wiley & Sons, 5–6.
- Marcello, J., Eugenio, F., and Marqués, F., 2009. Cloud motion estimation in Seviri image sequences. Signals and Communications Department, University of Las Palmas of Gran Canaria. Presented in Geoscience and Remote Sensing Symposium, 2009 IEEE International, IGARSS 2009, 12–17 July 2009, II-642–III-645, Capetown, South Africa.
- Muselli, M., et al., 2001. First order Markov chain model for generating synthetic ‘typical days’ series of global irradiation in order to design photovoltaic standalone systems. Science Direct Journal on Energy Conversion and Management, 42 (6), 675–687. Available: http://linkinghub.elsevier.com/retrieve/pii/S019689040000090X doi: 10.1016/S0196-8904(00)00090-X
- Schugart, P., 2011. American Superconductor; Renewable energy integration: why interconnections for utility-scale solar will likely follow the wind industry model. The Smart Grid Customer Education Symposium, October 11, FORTNIGHTLY, Washington, DC. Available from: http://greenutility.fortnightly.com/sitepages/pid42.php?ltemplate=intro_archive&pageId=42&lcommtypeid=6&item_id=23 [Accessed 18 December 2011].
- Vasquez, N., et al., 2008. A double input DC/DC converter for photovoltaic/wind systems. IEEE Power Electronics Specialist Conference, June 15–19, Rhodes, Greece, 2460–2464.
- Wang, Y.-B., et al., 2009. Large-scale grid-connected power station's capacity limit analysis under chance-constraints. IEEE International Conference on Sustainable Power Generation, April 6–7, Nanjing, China, 1–6.