Input impedance of rectangular microstrip patch antenna using artificial neural networks

## Abstract A novel method of using artificial neural networks (ANNS) for the calculation of the radiation resistance of a coax‐fed rectangular microstrip antenna is presented in this Letter. The network is trained with the results of three different antennas and tested for the fourth antenna. The

## Abstract The modified Wolff model (MWM)‐based cavity model is presented for the simple and accurate computation of the input impedance of a probe‐fed multilayer rectangular microstrip patch antenna. Results of the MWM are compared with both the experimental data and data of the MoM, with agreeme

## Abstract Closed‐form expressions for the input impedance of half‐wavelength rectangular microstrip antennas fed by a coaxial line at any point on any one of the nonradiating edges and open‐circuited at the ends are derived. Good agreement between computed and measured data is obtained. © 2002 Wi

## Abstract A method based on artificial neural networks (ANNs) for calculating the input resistance of circular microstrip patch antennas is presented. The Levenberg–Marquardt algorithm is used to train the networks. The theoretical input resistance results obtained by using this method are in ver

Finite impulse response artificial neural network (FIR-ANN) is used for speeding up the FDTD. The FIR-ANN based FDTD (Neuro FDTD) is used to calculate input impedance of coaxial fed stacked microstrip patch antenna. Input impedance obtained by Neuro FDTD and FDTD are compared. It has been observed t