Utilization of wavelet concepts in finite elements for efficient solution of Maxwell's equation

“…Only recently have wavelet methods been applied in areas of computational electromagnetics. The use of wavelet methods in integral equation techniques, in which the unknown response is represented in terms of shifted and dilated forms of the wavelet, has been examined [l]; and more recently wave1e:ts have been used in the finite: element solution of partial differential equations [2]. Gordon has discussed the use of waveleblike basis functioins in the finite element solution of one dimensional problems in which either Dirichlet or Neumann boundary conditions are enforced at each endpoint of the interval [3].…”

Finite element analysis of boundary value problems using wavelet-like basis functions

“…Only recently have wavelet methods been applied in areas of computational electromagnetics. The use of wavelet methods in integral equation techniques, in which the unknown response is represented in terms of shifted and dilated forms of the wavelet, has been examined [l]; and more recently wave1e:ts have been used in the finite: element solution of partial differential equations [2]. Gordon has discussed the use of waveleblike basis functioins in the finite element solution of one dimensional problems in which either Dirichlet or Neumann boundary conditions are enforced at each endpoint of the interval [3].…”

Finite element analysis of boundary value problems using wavelet-like basis functions

On solving first-kind integral equations using wavelets on a bounded interval

The use of wavelet-like basis functions in the finite element analysis of heterogeneous one dimensional regions