Hau, E., Windkraftanlangen, Springer Verlag, s. 110-113, Berlin, 1996.
Çetin N.S., Yurdusev M.A., Ata R. and Özdemir A., “Assessment of optimum tip speed ratio of wind turbine” Mathematical and Computational Applications, Vol. 10, No. 1, pp. 147-154, 2005.
Gasch, R., Windkraftanlangen, B. G. Teubner Verlag, s. 157-158, Stuttgart, 1996.
Yurdusev M.A., Ata R., Çetin N. S., “Assessment of Optimum Tip Speed Ratio in Wind Turbines Using Artificial Neural Network” Energy 31 (2006), 1817-1825.
Kalogirou, S., A. “Applications of neural networks for energy systems”, Renewable Energy, 2005, 30(7):1075-1090.
Kalogirou, S., A. “Artificial neural networks in renewable energy systems applications: a review”, Renewable and Sustainable Energy Reviews, 2001, 5(4):373–401.
Cam, E., Arcaklıoğlu, E., Çavuşoğlu, A. and Akbıyık, B., “A classification mechanicsm for determining average wind speed and power in several regions of Turkey using artificial neural networks”, Renewable Energy, 2005, 30(2):227-239.
Ata, R. “Analysis of power losses in energy transmission systems using artificial neural networks” PhD. thesis, Yıldız Technical University, Istanbul, Turkey, 1997.
Johns B. “Elements of aerodynamics”, New York: Wiley; 1950. p. 73-158.
Sidhu T.S. and Ao, Z. “On-line Evaluation of Capacity and Energy Losses in Power Transmission Systems by Using Artificial Neural Networks”, IEEE Trans. on Power Delivery, 1995; 10(4): 1913-1914.
Lippman, R.P., “An Introduction to Computing with Neural Nets”, IEEE ASSP Magazine, 1987; April: 4-22.
Hammerstrom, D., “Working with Neural Networks”, IEEE Spectrum, 1993; July: 46-53.
Hau, E., Windkraftanlangen, Springer Verlag, s. 110-113, Berlin, 1996.
Çetin N.S., Yurdusev M.A., Ata R. and Özdemir A., “Assessment of optimum tip speed ratio of wind turbine” Mathematical and Computational Applications, Vol. 10, No. 1, pp. 147-154, 2005.
Gasch, R., Windkraftanlangen, B. G. Teubner Verlag, s. 157-158, Stuttgart, 1996.
Yurdusev M.A., Ata R., Çetin N. S., “Assessment of Optimum Tip Speed Ratio in Wind Turbines Using Artificial Neural Network” Energy 31 (2006), 1817-1825.
Kalogirou, S., A. “Applications of neural networks for energy systems”, Renewable Energy, 2005, 30(7):1075-1090.
Kalogirou, S., A. “Artificial neural networks in renewable energy systems applications: a review”, Renewable and Sustainable Energy Reviews, 2001, 5(4):373–401.
Cam, E., Arcaklıoğlu, E., Çavuşoğlu, A. and Akbıyık, B., “A classification mechanicsm for determining average wind speed and power in several regions of Turkey using artificial neural networks”, Renewable Energy, 2005, 30(2):227-239.
Ata, R. “Analysis of power losses in energy transmission systems using artificial neural networks” PhD. thesis, Yıldız Technical University, Istanbul, Turkey, 1997.
Johns B. “Elements of aerodynamics”, New York: Wiley; 1950. p. 73-158.
Sidhu T.S. and Ao, Z. “On-line Evaluation of Capacity and Energy Losses in Power Transmission Systems by Using Artificial Neural Networks”, IEEE Trans. on Power Delivery, 1995; 10(4): 1913-1914.
Lippman, R.P., “An Introduction to Computing with Neural Nets”, IEEE ASSP Magazine, 1987; April: 4-22.
Hammerstrom, D., “Working with Neural Networks”, IEEE Spectrum, 1993; July: 46-53.
Ata, R., & Cetın, N. S. (2012). NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES. IU-Journal of Electrical & Electronics Engineering, 7(2), 431-438.
AMA
Ata R, Cetın NS. NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES. IU-Journal of Electrical & Electronics Engineering. Ocak 2012;7(2):431-438.
Chicago
Ata, Rasit, ve Numan Sabit Cetın. “NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES”. IU-Journal of Electrical & Electronics Engineering 7, sy. 2 (Ocak 2012): 431-38.
EndNote
Ata R, Cetın NS (01 Ocak 2012) NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES. IU-Journal of Electrical & Electronics Engineering 7 2 431–438.
IEEE
R. Ata ve N. S. Cetın, “NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES”, IU-Journal of Electrical & Electronics Engineering, c. 7, sy. 2, ss. 431–438, 2012.
ISNAD
Ata, Rasit - Cetın, Numan Sabit. “NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES”. IU-Journal of Electrical & Electronics Engineering 7/2 (Ocak 2012), 431-438.
JAMA
Ata R, Cetın NS. NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES. IU-Journal of Electrical & Electronics Engineering. 2012;7:431–438.
MLA
Ata, Rasit ve Numan Sabit Cetın. “NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES”. IU-Journal of Electrical & Electronics Engineering, c. 7, sy. 2, 2012, ss. 431-8.
Vancouver
Ata R, Cetın NS. NEURAL PREDICTION OF POWER FACTOR IN WIND TURBINES. IU-Journal of Electrical & Electronics Engineering. 2012;7(2):431-8.