Add to ORKGWe combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (EEM) to efficiently deal with 2-D electrically large electromagnetic band-gap (EBG) structures. In LEGO, the composite structure is broken up into elements called "bricks" that are characterized through scattering operators by invoking Love's equivalence principle. The problem is then formulated through an integral equation involving the total inverse scattering operator S-1 of the structure. The resulting equation is solved by the method of moments (MoM) and the EEM, which allows for considerable reduction in the size of the resulting MoM matrix. Therefore, it enables us to handle relatively large structures
The scattering from a large complex structure comprised of many objects may be efficiently tackled b...
Linear embedding via Green's operators (LEGO) is a computational method in which the multiple scatte...
The scattering from a large complex structure comprised of many objects may be efficiently tackled b...
We combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (...
We combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (...
We combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (...
We combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (...
Linear embedding via Green's operators (LEGO) is a computational method in which the multiple scatte...
We propose a methodology based on the Linear Embedding via Green’s Operators (LEGO) and the Eigencur...
We propose a methodology based on the Linear Embedding via Green’s Operators (LEGO) and the Eigencur...
We propose a methodology based on the Linear Embedding via Green’s Operators (LEGO) and the Eigencur...
We propose a methodology based on the Linear Embedding via Green’s Operators (LEGO) and the Eigencur...
We present an extension of the Linear Embedding via Greens Operators (LEGO) procedure for efficientl...
We present an extension of the Linear Embedding via Greens Operators (LEGO) procedure for efficientl...
We present an efficient formulation based on the linear embedding via Green's operators (LEGO) and t...
The scattering from a large complex structure comprised of many objects may be efficiently tackled b...
Linear embedding via Green's operators (LEGO) is a computational method in which the multiple scatte...
The scattering from a large complex structure comprised of many objects may be efficiently tackled b...
We combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (...
We combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (...
We combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (...
We combine the linear embedding via Green's operators (LEGO) and the eigencurrent expansion method (...
Linear embedding via Green's operators (LEGO) is a computational method in which the multiple scatte...
We propose a methodology based on the Linear Embedding via Green’s Operators (LEGO) and the Eigencur...
We propose a methodology based on the Linear Embedding via Green’s Operators (LEGO) and the Eigencur...
We propose a methodology based on the Linear Embedding via Green’s Operators (LEGO) and the Eigencur...
We propose a methodology based on the Linear Embedding via Green’s Operators (LEGO) and the Eigencur...
We present an extension of the Linear Embedding via Greens Operators (LEGO) procedure for efficientl...
We present an extension of the Linear Embedding via Greens Operators (LEGO) procedure for efficientl...
We present an efficient formulation based on the linear embedding via Green's operators (LEGO) and t...
The scattering from a large complex structure comprised of many objects may be efficiently tackled b...
Linear embedding via Green's operators (LEGO) is a computational method in which the multiple scatte...
The scattering from a large complex structure comprised of many objects may be efficiently tackled b...