Pages that link to "Item:Q1127083"
From MaRDI portal
The following pages link to Finite element analysis of wave scattering from singularities (Q1127083):
Displaying 18 items.
- Using an accurate singularity extraction technique to the MFIE for the scattering analysis of small objects (Q443433) (← links)
- Dirichlet-to-Neumann and Neumann-to-Dirichlet methods for eigenvalues and eigenfunctions of the Laplace operator (Q450933) (← links)
- The singular finite element method for some elliptic boundary value problem with interface (Q596195) (← links)
- The Dirichlet-to-Neumann map for two-dimensional crack problems (Q646357) (← links)
- Discretizing singular point sources in hyperbolic wave propagation problems (Q726960) (← links)
- Error estimates of the finite element method for the exterior Helmholtz problem with a modified DtN boundary condition (Q837103) (← links)
- Finite element modeling of scattering problems involving infinite domains using drilling degrees of freedom (Q1371891) (← links)
- Eigenanalysis for membranes with stringers using conventional BEM in conjunction with SVD technique. (Q1402563) (← links)
- Discrete boundary conditions for elasticity problems with singularities. (Q1420951) (← links)
- Dual boundary element analysis of wave scattering from singularities (Q1607994) (← links)
- Dtn-based mixed-dimensional coupling using a boundary stress recovery technique (Q1800192) (← links)
- A finite element method for Stokes equation using discrete singularity expansion (Q2573219) (← links)
- XFEM-based crack detection scheme using a genetic algorithm (Q3587984) (← links)
- (Q4249772) (← links)
- Special wave basis finite elements for very short wave refraction and scattering problems (Q4736799) (← links)
- Corner singularities for elliptic problems: special basis functions versus ?brute force? (Q4949928) (← links)
- Numerical simulations of fracture problems by coupling the FEM and the direct method of lines (Q5944623) (← links)
- Discrete boundary conditions for problems with interface (Q5944631) (← links)