Pinned Repositories
2D-Helmholtz-FEM-BEM-Coupling
adaptive-bie
Boundary integral equations with adaptivity in 2D
ADFNE
Alghalandis Discrete Fracture Network Engineering
anisotropic_ABEM
Matlab Code for an anisotropic adaptive boundary element method
asyBEM
Exploit high-frequency scattering asymptotics in a Boundary Element Method.
BEM
2D elasto-static BEM
BEM-2D-Matlab
This is the source code for the Matlab version of the 2D boundary element method code. This code is an unsteady potential flow solver. The features include time-stepping, wake rollup, lumped wake elements, one degree-of-freedom equations of motion and a boundary layer solver.
BEM-3D-Python
3D Python boundary element method solver
BEMFMM
Extreme Scale FMM-Accelerated Boundary Integral Equation Solver for Wave Scattering
StokesFlowAxisymmetricBoundaryIntegralMethod
Compute the motion of droplets and particles in Stokes flows in axisymmetric domains using the Boundary Element Method (BEM) or the Spectral Boundary Integral Method (SBIM). The code is written in MATLAB with some possibility to use pre-compiled c-fuctions. The code includes: direct numerical simulations (DNS) with time stepping, Newton method, Continuation Method, Linear Stability Analysis and Edge Tracking Method.
Mu-cq's Repositories
Mu-cq/StokesFlowAxisymmetricBoundaryIntegralMethod
Compute the motion of droplets and particles in Stokes flows in axisymmetric domains using the Boundary Element Method (BEM) or the Spectral Boundary Integral Method (SBIM). The code is written in MATLAB with some possibility to use pre-compiled c-fuctions. The code includes: direct numerical simulations (DNS) with time stepping, Newton method, Continuation Method, Linear Stability Analysis and Edge Tracking Method.
Mu-cq/BEMFMM
Extreme Scale FMM-Accelerated Boundary Integral Equation Solver for Wave Scattering
Mu-cq/DASBEM
This is a program for dynamic analysis of plane scalar time domain problems using half-plane boundary element method (BEM). This program is developed for analysis of 2D subsurface inclusions embedded in the elastic half-plane.
Mu-cq/adaptive-bie
Boundary integral equations with adaptivity in 2D
Mu-cq/BEW
Boundary element method in the inverse problems of steady heat transfer (master thesis, 2009)
Mu-cq/BIE
Boundary Integral Equation work
Mu-cq/BIE2D
MATLAB tools for boundary integral equations in 2D (Laplace, Helmholtz, Stokes, ...)
Mu-cq/BIE3D
MATLAB tools for boundary integral equations in 3D (Laplace, time-domain wave equation, etc)
Mu-cq/BISQ
VTI BISQ poroelastic wave equation
Mu-cq/CC-FJpy
A Python Package for seismic ambient noise cross-correlation and the frequency-Bessel transform method
Mu-cq/Code_FEM
Matlab FEM/BEM code
Mu-cq/CutAndDisplace
Boundary Element MATLAB code. Modelling faults and deformation
Mu-cq/deltaBEM
MATLAB-based suite for 2-D numerical computing with the boundary element method on smooth geometries and open arcs.
Mu-cq/DisbaTomo
Mu-cq/DRadiSurfTomo
Mu-cq/ElasticMatrix
The ElasticMatrix software uses the partial-wave method to model elastic wave propagation in multilayered anisotropic media.
Mu-cq/Fracture-MATLAB
Compute the stress intensity factors
Mu-cq/Gitdemo
this is a demo
Mu-cq/gypsilab
The gypsilab project is a young open-source MATLAB toolbox for fast numerical computation with finite element and boundary element methods. Accessible with a high-level programming language, it gives a useful framework for fast prototyping.
Mu-cq/hello-word
just a repository
Mu-cq/hybrid_FEM_SBI
Hybrid Finite Element - Spectral Boundary Integral Method for Earthquake Dynamic Rupture simulation
Mu-cq/HypFEM
HypFEM - Enriched finite element solution space based numerical solver for initial-boundary value problems in hyperbolic linear PDEs.
Mu-cq/pi-BEM
Parallel Boundary Element Method solver
Mu-cq/Platypus
MATLAB code accompanying Song, Ch. (2018), The Scaled Boundary Finite Element Method: Introduction to Theory and Implementation, John Wiley & Sons Ltd
Mu-cq/PyBEM2D
A Python-based Boundary Element Library
Mu-cq/RSBEM
regularized Stokeslet Boundary Element Method in MATLAB
Mu-cq/seismic_cpml
SEISMIC_CPML is a set of sixteen open-source Fortran90 programs to solve the two-dimensional or three-dimensional isotropic or anisotropic elastic, viscoelastic or poroelastic wave equation using a finite-difference method with Convolutional or Auxiliary Perfectly Matched Layer (C-PML or ADE-PML) conditions, developed by Dimitri Komatitsch and Roland Martin from CNRS, France.
Mu-cq/tectosaur
Boundary element methods for crustal deformation and earthquake science.
Mu-cq/TR-FDTD
Time-Reversal Algorithm with Finite-Difference Time-Domain Method
Mu-cq/WaveProp_in_MATLAB
Single-file implementations of 2D and 3D acoustic and elastic wave propagation in time domain using finite-differences(FDTD). Simple formulation and implementation