This paper presents a multipole expansion for the layered media Green's function (GF). It is obtained thanks to a closed-form expression of the GF as a finite sum of Hankel functions. This multipole expansion can be introduced in the framework of Mixed-Potential Integral Equation (MPIE) formulations and solved with the Method-of-Moments (MoM). Then, when applying the Macro Basis Function (MBF) technique, one can exploit the aforementioned expansion in order to provide a fast evaluation of the reaction integrals between the set of MBFs considered for the array radiating element. Moreover, the size reduction of the MoM system of equations achieved using MBFs, allows one to save resources in terms of memory and solution time
This paper presents an approach for the efficient Method-of-Moments (MoM) analysis of antenna arrays...
This paper presents a formulation based on multipole expansions for the reduction of the method-of-m...
An efficient method-of-moments (MoM) technique for analyzing non-periodic antenna arrays of identica...
An efficient technique is presented for the analysis of finite printed antenna arrays made of identi...
An efficient technique is presented for the analysis of finite printed antenna arrays made of identi...
Two techniques are explored for the efficient Macro Basis Functions (MBFs) analysis of large printed...
Antenna systems are becoming ubiquitous and the use of antenna arrays has been found essential. The ...
This paper presents an improved subdomain multilevel approach (SMA), a technique efficiently used fo...
Antenna array design has recently focused on non-periodic structures. The possibility of having arbi...
A method is proposed for the fast Macro Basis Functions (MBFs) characterization of linear arrays of ...
The Macro Basis Functions (MBFs) approach is a form of domain-decomposition method applied to radiat...
A technique is presented for the efficient analysis of finite printed antenna arrays made of identic...
Scattering by finite arrays of dielectric elements is analyzed numerically. This is carried out effi...
The Macro Basis Functions (MBFs) approach is a form of domain-decomposition method applied to radiat...
A new type of fest method of moments (MoM) solution scheme using standard basis functions for large ...
This paper presents an approach for the efficient Method-of-Moments (MoM) analysis of antenna arrays...
This paper presents a formulation based on multipole expansions for the reduction of the method-of-m...
An efficient method-of-moments (MoM) technique for analyzing non-periodic antenna arrays of identica...
An efficient technique is presented for the analysis of finite printed antenna arrays made of identi...
An efficient technique is presented for the analysis of finite printed antenna arrays made of identi...
Two techniques are explored for the efficient Macro Basis Functions (MBFs) analysis of large printed...
Antenna systems are becoming ubiquitous and the use of antenna arrays has been found essential. The ...
This paper presents an improved subdomain multilevel approach (SMA), a technique efficiently used fo...
Antenna array design has recently focused on non-periodic structures. The possibility of having arbi...
A method is proposed for the fast Macro Basis Functions (MBFs) characterization of linear arrays of ...
The Macro Basis Functions (MBFs) approach is a form of domain-decomposition method applied to radiat...
A technique is presented for the efficient analysis of finite printed antenna arrays made of identic...
Scattering by finite arrays of dielectric elements is analyzed numerically. This is carried out effi...
The Macro Basis Functions (MBFs) approach is a form of domain-decomposition method applied to radiat...
A new type of fest method of moments (MoM) solution scheme using standard basis functions for large ...
This paper presents an approach for the efficient Method-of-Moments (MoM) analysis of antenna arrays...
This paper presents a formulation based on multipole expansions for the reduction of the method-of-m...
An efficient method-of-moments (MoM) technique for analyzing non-periodic antenna arrays of identica...