Scattering targets are often made by complex structures constituted by thin metallic plates as wings, fins, winglets. When thin plates are connected together, they define surface junctions with the possible presence of sharp edges. In this paper we describe a complete procedure to handle junctions in presence of sharp edges in surface integral equation methods by defining the required basis functions and unknowns. This approach is based on the use of divergence-conforming higher order interpolatory vector basis functions, singular vector basis functions and on Kirchhoff’s current law. The paper presents several numerical test cases that show the instability of solutions using classical methods and the full convergence of the proposed numeri...
Implementations in Method of Moments of the Electric-Field Integral Equation (EFIE) are traditionall...
The method of moments is used to solve electromagenetic boundary value problems numerically. It is k...
The eddy current method is used for nondestructive evaluation of conducting materials. To achieve a ...
Scattering targets are often made by complex structures constituted by thin metallic plates as wings...
Complex scattering targets contain metallic structures with junctions and sharp edges that require a...
When the surface integral equation method is applied to study metallic structures with junctions and...
This dissertation presents new singular curl- and divergence- conforming vector bases that incorpora...
We present new subsectional, singular divergence conforming vector bases that incorporate the edge c...
A method to treat junctions between bodies of revolution (BOR) and arbitrary surfaces is presented. ...
This paper summarizes and disseminates our efforts in developing new techniques to handle singularit...
International audienceIn this contribution, a well-conditioned boundary integral based algorithm is ...
The Method of Moments (MoM) is an efficient way of obtaining solutions of integral equations for 2D ...
In this paper we derive new two-dimensional (2-D) quadrature formulas for the discretization of boun...
The discretization by the method of moments (MoM) of integral equations in the electromagnetic scatt...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Implementations in Method of Moments of the Electric-Field Integral Equation (EFIE) are traditionall...
The method of moments is used to solve electromagenetic boundary value problems numerically. It is k...
The eddy current method is used for nondestructive evaluation of conducting materials. To achieve a ...
Scattering targets are often made by complex structures constituted by thin metallic plates as wings...
Complex scattering targets contain metallic structures with junctions and sharp edges that require a...
When the surface integral equation method is applied to study metallic structures with junctions and...
This dissertation presents new singular curl- and divergence- conforming vector bases that incorpora...
We present new subsectional, singular divergence conforming vector bases that incorporate the edge c...
A method to treat junctions between bodies of revolution (BOR) and arbitrary surfaces is presented. ...
This paper summarizes and disseminates our efforts in developing new techniques to handle singularit...
International audienceIn this contribution, a well-conditioned boundary integral based algorithm is ...
The Method of Moments (MoM) is an efficient way of obtaining solutions of integral equations for 2D ...
In this paper we derive new two-dimensional (2-D) quadrature formulas for the discretization of boun...
The discretization by the method of moments (MoM) of integral equations in the electromagnetic scatt...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Implementations in Method of Moments of the Electric-Field Integral Equation (EFIE) are traditionall...
The method of moments is used to solve electromagenetic boundary value problems numerically. It is k...
The eddy current method is used for nondestructive evaluation of conducting materials. To achieve a ...