Keywords: روش مبتنی بر موج; Cyclic variability; Surface contribution analysis; Wave based method;
مقالات ISI روش مبتنی بر موج (ترجمه نشده)
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Keywords: روش مبتنی بر موج; Wave based method; Double-walled cylindrical shells; Annular plates; Elastic boundary conditions; Vibration analysis;
Keywords: روش مبتنی بر موج; Wave based method; Elastically coupled plate-shell structures; Elastic boundary conditions; Vibration analysis;
Keywords: روش مبتنی بر موج; Non-uniformly supported cylindrical shells; Wave based method; Artificial springs; Point supports; Vibration analysis;
Keywords: روش مبتنی بر موج; Topology optimization; Wave based method; Hybrid finite element-wave based method; Bounded acoustic problem;
Keywords: روش مبتنی بر موج; Parameter estimation; Poroelastic Biot theory; Optimisation; Kundt tube; Wave Based Method;
Keywords: روش مبتنی بر موج; Acoustics; Equivalent fluid; Periodic structures; Wave based method; Absorption; Transmission
Keywords: روش مبتنی بر موج; Hybrid modelling; Poroelastic materials; Wave based method; Finite element method; Biot’s theory
Keywords: روش مبتنی بر موج; Structural dynamics; Plate bending; Kirchhoff theory; Wave Based Method; Distributed load; Turbulent Boundary Layer excitation
Keywords: روش مبتنی بر موج; Wave Based Method; Boundary Element Method; Helmholtz problem; Bounded acoustic problem; Inclusions; Trefftz method;
Keywords: روش مبتنی بر موج; Wave Based Method; Indirect Variational Boundary Element Method; Multiple scattering; Multi-Level Wave Based Method; Trefftz Method; Hybrid Boundary Element Wave Based Method;
Prediction of transmission, reflection and absorption coefficients of periodic structures using a hybrid Wave Based - Finite Element unit cell method
Keywords: روش مبتنی بر موج; Periodic structures; Absorption; Transmission; Wave Based Method; Finite Element Method; Bloch-Floquet;
An explicit Wave based model as alternative to the DtN map for solving unbounded Helmholtz problems with the finite element method
Keywords: روش مبتنی بر موج; Helmholtz problems; Unbounded problems; Finite element method; Wave based method; Dirichlet-to-Neumann map
The wave based method: An overview of 15Â years of research
Keywords: روش مبتنی بر موج; Acoustics; Structural dynamics; Biot theory; Wave based method; Trefftz approach;
A direct hybrid Finite Element – Wave Based Method for the steady-state analysis of acoustic cavities with poro-elastic damping layers using the coupled Helmholtz–Biot equations
Keywords: روش مبتنی بر موج; Poro-elastic materials; Biot theory; Direct hybrid approach; Finite Element Method; Wave Based Method
A Wave Based Method for the axisymmetric dynamic analysis of acoustic and poroelastic problems
Keywords: روش مبتنی بر موج; Acoustics; Poroelastic Biot theory; Axisymmetry; Wave Based Method; Trefftz approach
A Trefftz based method for solving Helmholtz problems in semi-infinite domains
Keywords: روش مبتنی بر موج; Trefftz method; Wave based method; Helmholtz problems; Semi-unbounded problems
An efficient Wave Based Method for solving Helmholtz problems in three-dimensional bounded domains
Keywords: روش مبتنی بر موج; Trefftz method; Wave Based Method; Helmholtz problems; 3D bounded problems
An efficient Wave Based Method for 2D acoustic problems containing corner singularities
Keywords: روش مبتنی بر موج; Helmholtz equation; 2D acoustics; Corner singularities; Wave Based Method; Trefftz
A Wave Based Method for the efficient solution of the 2D poroelastic Biot equations
Keywords: روش مبتنی بر موج; Poroelastic materials; Biot theory; Wave Based Method; Trefftz
On the analysis of vibro-acoustic systems in the mid-frequency range using a hybrid deterministic-statistical approach
Keywords: روش مبتنی بر موج; Hybrid methodology; Wave Based Method; Statistical Energy Analysis; Mid-frequency; Steady-state; Vibro-acoustics
Efficient treatment of stress singularities in poroelastic wave based models using special purpose enrichment functions
Keywords: روش مبتنی بر موج; Poroelastic materials; Biot theory; Stress singularities; Wave Based Method; Trefftz approach
Spline-based boundaries: A first step towards generic geometric domain descriptions for efficient mid-frequency acoustic analysis using the Wave Based Method
Keywords: روش مبتنی بر موج; 65E05Numerical acoustics; Wave Based Method; Trefftz; B-splines
A direct hybrid finite element – Wave based modelling technique for efficient coupled vibro-acoustic analysis
Keywords: روش مبتنی بر موج; 65N30; 35J05; 35J20; 74J20; 78A45Mid-frequency; Helmholtz equation; Bounded domains; Wave based method; Finite element method; Hybrid coupling approach
A Trefftz-based numerical modelling framework for Helmholtz problems with complex multiple-scatterer configurations
Keywords: روش مبتنی بر موج; Multiple-scattering; Helmholtz equation; Unbounded domain; Mid-frequency; Trefftz method; Wave Based Method
A multi-level wave based numerical modelling framework for the steady-state dynamic analysis of bounded Helmholtz problems with multiple inclusions
Keywords: روش مبتنی بر موج; Multiple inclusions; Helmholtz equation; Acoustics; Elastodynamics; Mid-frequency; Wave Based Method
An efficient wave based prediction technique for dynamic plate bending problems with corner stress singularities
Keywords: روش مبتنی بر موج; Structural dynamics; Wave based method; Indirect Trefftz method; Kirchhoff theory; Stress singularities; Corner functions
An efficient wave based prediction technique for plate bending vibrations
Keywords: روش مبتنی بر موج; Structural dynamics; Wave based method; Indirect Trefftz method; Kirchhoff theory; Plate bending vibrations