U. ASIK Et Al. , "A wavelet-based radial-basis function neural network approach to the inverse scattering of conducting cylinders," MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.41, no.6, pp.506-511, 2004
ASIK, U. Et Al. 2004. A wavelet-based radial-basis function neural network approach to the inverse scattering of conducting cylinders. MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.41, no.6 , 506-511.
ASIK, U., Gunel, T., & Erer, I., (2004). A wavelet-based radial-basis function neural network approach to the inverse scattering of conducting cylinders. MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.41, no.6, 506-511.
ASIK, U, Murat Tayfun Günel, And Işın Erer. "A wavelet-based radial-basis function neural network approach to the inverse scattering of conducting cylinders," MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.41, no.6, 506-511, 2004
ASIK, U Et Al. "A wavelet-based radial-basis function neural network approach to the inverse scattering of conducting cylinders." MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.41, no.6, pp.506-511, 2004
ASIK, U. Gunel, T. And Erer, I. (2004) . "A wavelet-based radial-basis function neural network approach to the inverse scattering of conducting cylinders." MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.41, no.6, pp.506-511.
@article{article, author={U ASIK Et Al. }, title={A wavelet-based radial-basis function neural network approach to the inverse scattering of conducting cylinders}, journal={MICROWAVE AND OPTICAL TECHNOLOGY LETTERS}, year=2004, pages={506-511} }