Formulation and accuracy of on-surface radiation conditions for acoustic multiple scattering problems
From MaRDI portal
Publication:671069
DOI10.1016/j.amc.2015.12.023zbMath1410.78010OpenAlexW2285246850MaRDI QIDQ671069
Chokri Chniti, Xavier Antoine, Hasan Alzubaidi
Publication date: 20 March 2019
Published in: Applied Mathematics and Computation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.amc.2015.12.023
Related Items (8)
Solution of three-dimensional multiple scattering problems by the method of difference potentials ⋮ Standard and phase reduced isogeometric on-surface radiation conditions for acoustic scattering analyses ⋮ Frequency-robust preconditioning of boundary integral equations for acoustic transmission ⋮ Iterative on surface radiation conditions for fast and reliable single and multiple scattering analyses of arbitrarily shaped obstacles ⋮ A virtual element method coupled with a boundary integral non reflecting condition for 2D exterior Helmholtz problems ⋮ Local on-surface radiation condition for multiple scattering of waves from convex obstacles ⋮ Asymptotic behavior of acoustic waves scattered by very small obstacles ⋮ High order surface radiation conditions for time-harmonic waves in exterior domains
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Dirichlet-to-Neumann boundary conditions for multiple scattering problems
- On surface radiation conditions for high-frequency wave scattering
- On surface radiation conditions for an ellipse
- Coupling of Dirichlet-to-Neumann boundary condition and finite difference methods in curvilinear coordinates for multiple scattering
- A Trefftz-based numerical modelling framework for Helmholtz problems with complex multiple-scatterer configurations
- Bayliss-Turkel-like radiation conditions on surfaces of arbitrary shape
- Inverse acoustic and electromagnetic scattering theory.
- On-surface radiation condition for multiple scattering of waves
- \(\mu\)-diff: an open-source Matlab toolbox for computing multiple scattering problems by disks
- The fast multipole method: Numerical implementation
- A remark on the single scattering preconditioner applied to boundary integral equations
- The performance of local absorbing boundary conditions for acoustic scattering from elliptical shapes
- An improved surface radiation condition for high-frequency acoustic scattering problems
- Über das Dirichletsche Außenraumproblem für die Helmholtzsche Schwingungsgleichung
- On the numerical approximation of high-frequency acoustic multiple scattering problems by circular cylinders
- Fast approximate computation of a time-harmonic scattered field using the on-surface radiation condition method
- Scattering of sound from point sources by multiple circular cylinders using addition theorem and superposition technique
- ANALYTIC PRECONDITIONERS FOR THE BOUNDARY INTEGRAL SOLUTION OF THE SCATTERING OF ACOUSTIC WAVES BY OPEN SURFACES
- Generalized combined field integral equations for the iterative solution of the three-dimensional Helmholtz equation
- Boundary Conditions for the Numerical Solution of Elliptic Equations in Exterior Regions
- Absorbing Boundary Conditions for the Numerical Simulation of Waves
- Scattering of waves by thin periodic layers at high frequencies using the on-surface radiation condition method
- Electromagnetic scattering from a right-circular cylinder using a surface radiation condition
- A new formulation of electromagnetic wave scattering using an on-surface radiation boundary condition approach
- Alternative integral equations for the iterative solution of acoustic scattering problems
- An algorithm coupling the OSRC and FEM for the computation of an approximate scattered acoustic field by a non-convex body
- Wide Frequency Band Numerical Approaches for Multiple Scattering Problems by Disks
- A fast algorithm for particle simulations
- Acoustic and electromagnetic equations. Integral representations for harmonic problems
This page was built for publication: Formulation and accuracy of on-surface radiation conditions for acoustic multiple scattering problems
