S. Simsek, "An efficient neural network model for the input resonant resistance of coaxial fed rectangular microstrip antennas with thin and thick substrates," MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.48, no.11, pp.2197-2199, 2006
Simsek, S. 2006. An efficient neural network model for the input resonant resistance of coaxial fed rectangular microstrip antennas with thin and thick substrates. MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.48, no.11 , 2197-2199.
Simsek, S., (2006). An efficient neural network model for the input resonant resistance of coaxial fed rectangular microstrip antennas with thin and thick substrates. MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.48, no.11, 2197-2199.
Simsek, Serkan. "An efficient neural network model for the input resonant resistance of coaxial fed rectangular microstrip antennas with thin and thick substrates," MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.48, no.11, 2197-2199, 2006
Simsek, Serkan. "An efficient neural network model for the input resonant resistance of coaxial fed rectangular microstrip antennas with thin and thick substrates." MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.48, no.11, pp.2197-2199, 2006
Simsek, S. (2006) . "An efficient neural network model for the input resonant resistance of coaxial fed rectangular microstrip antennas with thin and thick substrates." MICROWAVE AND OPTICAL TECHNOLOGY LETTERS , vol.48, no.11, pp.2197-2199.
@article{article, author={Serkan Şimşek}, title={An efficient neural network model for the input resonant resistance of coaxial fed rectangular microstrip antennas with thin and thick substrates}, journal={MICROWAVE AND OPTICAL TECHNOLOGY LETTERS}, year=2006, pages={2197-2199} }