New Accurate Subentire-Domain Basis Functions Method for the Analysis of Large-Scale Finite Periodic Structures with Electrically Connected Cells

“…The number of unknowns is kept unchanged yet. The electrically large structures can also be analyzed using the macro basis function methods, [8][9][10][11][12] by which the number of unknowns is significantly reduced. The synthetic basis function method was used for scattering analysis of the large-scale aperiodic array.…”

“…11 An N 0 Â N 0 reduced matrix can be obtained, where N 0 is the number of cells. The new SED basis function method was proposed to analyze the interconnected finite periodic arrays, 12 which is more accurate than the conventional one. However, the MB-CBFM and the SED method are unsuitable for the composite structure with the finite periodic array.…”

An extended aggregate basis function method for composite structure with periodic array

“…The number of unknowns is kept unchanged yet. The electrically large structures can also be analyzed using the macro basis function methods, [8][9][10][11][12] by which the number of unknowns is significantly reduced. The synthetic basis function method was used for scattering analysis of the large-scale aperiodic array.…”

“…11 An N 0 Â N 0 reduced matrix can be obtained, where N 0 is the number of cells. The new SED basis function method was proposed to analyze the interconnected finite periodic arrays, 12 which is more accurate than the conventional one. However, the MB-CBFM and the SED method are unsuitable for the composite structure with the finite periodic array.…”

An extended aggregate basis function method for composite structure with periodic array

Wideband Solution of Electrically Connected Finite Periodic Arrays Using Modified Accurate Subentire-Domain Basis Function Method and Improved Frequency-Independent Reaction

A Comparison of MB-CBFM and Modified ASED Basis Function Method to Analyze Interconnected Finite Periodic Arrays