Efficient analysis of arbitrarily shaped microstrip structures

## Abstract Analysis of H‐shaped patch is carried out using equivalent circuit model. It is found that the antenna exhibits dual resonance behavior which is very sensitive to the dimensions of the notch. The theoretical results of proposed method are compared with experimental and theoretical resul

## Abstract In this paper, we present a fast analysis of electromagnetic scattering by arbitrarily shaped 3D homogeneous dielectric objects. The solution is based on the PMCHW integral equation formulation. The method of moments (MoM) is used to solve the integral equations and the precorrected fas

## In this article the analysis of finite phased arrays of arbitrary shaped linear microstrip antennas is presented in detail. The analysis is based on solving the electic field integral equation with the moment method to find the current distribution along the array elements, the input impedance

ⅷ As compared to the Gaussian approach, the point of peak power is higher, and occurs for higher values of h. ⅷ In the ascending flank of the curves, particularly in the range 0.25hrh -0.75 where the sensor sensitivity ref S s Ѩ P rѨ h is higher and linearity errors are smaller, it n is observed tha

## Abstract In this paper, the input impedance and radiation pattern of spherical rectangular patch antennas are studied. The electric field integral equation is numerically solved by applying the method of moments where the multilayer spherical structure is rigorously considered, using the spectra