New expression for the resonance frequency of an E-shaped microstrip patch antenna

## Abstract The genetic‐based approach to the modified resonant frequency calculation for E‐shaped and H‐shaped microstrip patch antennas is presented.Continuous parameter genetic algorithm (CPGA) has been used to modify the resonant frequency expressions of E‐shaped and H‐shaped microstrip antenna

## Abstract This letter presents a novel effective radius expression for determining the resonant frequency of circular microstrip patch antennas. The effective patch radius expression is constructed by using differential evolution algorithm and is valid for both electrically thin and thick circula

## Abstract In this article, simple expressions for calculating the resonant frequencies at TM~10~ and TM~01~ modes of dual frequency arrow‐shaped compact microstrip antennas are presented. These empirical expressions are derived with the use of differential evolution algorithm by using the simulat

## Abstract In this paper, a new CAD model is proposed to calculate accurate resonant frequencies of inverted microstrip circular patch antennas having a wide range of parameters. This model incorporates all the effects of various dimensions and dielectrics used. Computed results for the first few

## Abstract A new and accurate expression for the edge extension in accurately predicting the resonant frequency of electrically thin and thick rectangular microstrip antennas is presented. First, a closed‐form model for the edge extension is constructed by utilizing a differential evolution algori

## Abstract A formula for the resonance frequencies of circular microstrip patch antennas for 30 TM~nm~ modes is developed by the curve‐fitting technique from computed data of existing theory. The formula is found to be within about ± 1.3% error of the theoretical results. For this formula, it is n