Add to ORKGAbstract An adaptive collocation wavelet method for three-dimensional fluid– structure interaction at large Reynolds numbers is presented. This ap-proach is shown to give accurate results with a reduced number of com-putational elements. The method is applied to two-dimensional flow past moving and fixed cylinders at Re = 102 and Re = 104, and to three-dimensional flow past a sphere at Re = 500. This is the first three-dimensional calculation of flow past an obstacle using a dynami-cally adapted grid
International audienceThis article reviews state-of-the-art adaptive, multiresolution wavelet method...
Turbulent flows, noted for their chaotic dynamic and multiscale nature, are notoriously difficult an...
The recent development of the adaptive-anisotropic wavelet-collocation method, which incorporates th...
Abstract One of the most practically important problems in aerodynamics is cal-culating moderate to ...
Abstract. Two mathematical approaches are combined to calculate high Reynolds number in-compressible...
Advancements to the adaptive wavelet-collocation method over the last decade have opened up a number...
The adaptive wavelet method is studied for the enhancement of computational efficiency of three-dime...
International audienceWe present a wavelet-based adaptive method for computing 3D flows in complex, ...
An adaptive wavelet method is applied in order to enhance the computational efficiency of enhanced M...
Abstract: Numerical simulations of the compressible Rayleigh-Taylor instability are performed on an ...
AbstractWe present an adaptive wavelet method to integrate the velocity–vorticity formulation of the...
We present an adaptive wavelet method for solving the incompressible Navier-Stokes equations in two ...
Abstract: Localized structures were singled out with the use of wavelet algorithm from the...
Abstract: The technology of two level Cartesian mesh adaptation based on wavelet detection...
Summary In this paper we present an adaptive wavelet method to integrate the velocity-vorticity form...
International audienceThis article reviews state-of-the-art adaptive, multiresolution wavelet method...
Turbulent flows, noted for their chaotic dynamic and multiscale nature, are notoriously difficult an...
The recent development of the adaptive-anisotropic wavelet-collocation method, which incorporates th...
Abstract One of the most practically important problems in aerodynamics is cal-culating moderate to ...
Abstract. Two mathematical approaches are combined to calculate high Reynolds number in-compressible...
Advancements to the adaptive wavelet-collocation method over the last decade have opened up a number...
The adaptive wavelet method is studied for the enhancement of computational efficiency of three-dime...
International audienceWe present a wavelet-based adaptive method for computing 3D flows in complex, ...
An adaptive wavelet method is applied in order to enhance the computational efficiency of enhanced M...
Abstract: Numerical simulations of the compressible Rayleigh-Taylor instability are performed on an ...
AbstractWe present an adaptive wavelet method to integrate the velocity–vorticity formulation of the...
We present an adaptive wavelet method for solving the incompressible Navier-Stokes equations in two ...
Abstract: Localized structures were singled out with the use of wavelet algorithm from the...
Abstract: The technology of two level Cartesian mesh adaptation based on wavelet detection...
Summary In this paper we present an adaptive wavelet method to integrate the velocity-vorticity form...
International audienceThis article reviews state-of-the-art adaptive, multiresolution wavelet method...
Turbulent flows, noted for their chaotic dynamic and multiscale nature, are notoriously difficult an...
The recent development of the adaptive-anisotropic wavelet-collocation method, which incorporates th...