A detailed and systematic analysis is performed on the local and global properties of the recently developed Harmonic Polynomial Cell (HPC) method, a very accurate and efficient field solver for problems governed by the Laplace equation. At the local cell level, a simple rule is identified for the proper choice of harmonic polynomials in the local representation of the velocity potential in cells with symmetry properties. The local solution error, its convergence rate, its dependence on the cell topology, its distribution inside the cell and its features across cells with different dimensions, are carefully examined with relevant findings for HPC numerical implementations. At the global level, the error convergence rate is analytically esti...
The computational cost of solving the Navier-Stokes equations numerically is too high for most full-...
Abstract. Dense particulate flow simulations using integral equation methods demand accurate evaluat...
A sharp interface immersed boundary method is presented for simulating flows around moving boundarie...
Several cases of nonlinear-wave propagation are studied numerically in two dimensions within the fra...
We present a 2D high-order and easily accessible immersed-boundary adaptive harmonic polynomial cell...
We propose a new efficient and accurate numerical method based on harmonic polynomials to solve boun...
Further developments and applications of the 2D harmonic polynomial cell (HPC) method proposed by Sh...
A high‐order harmonic polynomial method (HPM) is developed for solving the Laplace equation with com...
International audienceTo model the propagation of large water waves and associated loads applied to ...
The recently developed Harmonic Polynomial Cell (HPC) method has been proved to be a promising choic...
A numerical wave tank based on the Harmonic Polynomial Cell (HPC) method is created to study the gen...
International audienceA fully nonlinear potential Numerical Wave Tank (NWT) is developed in two dime...
In numerical simulations with moving bodies, and often with complex geometries, generation of high-q...
Offshore structures located in harsh environments may experience large wave loads and wave-induced r...
An efficient and innovative numerical algorithm based on the use of Harmonic Polynomials on each Cel...
The computational cost of solving the Navier-Stokes equations numerically is too high for most full-...
Abstract. Dense particulate flow simulations using integral equation methods demand accurate evaluat...
A sharp interface immersed boundary method is presented for simulating flows around moving boundarie...
Several cases of nonlinear-wave propagation are studied numerically in two dimensions within the fra...
We present a 2D high-order and easily accessible immersed-boundary adaptive harmonic polynomial cell...
We propose a new efficient and accurate numerical method based on harmonic polynomials to solve boun...
Further developments and applications of the 2D harmonic polynomial cell (HPC) method proposed by Sh...
A high‐order harmonic polynomial method (HPM) is developed for solving the Laplace equation with com...
International audienceTo model the propagation of large water waves and associated loads applied to ...
The recently developed Harmonic Polynomial Cell (HPC) method has been proved to be a promising choic...
A numerical wave tank based on the Harmonic Polynomial Cell (HPC) method is created to study the gen...
International audienceA fully nonlinear potential Numerical Wave Tank (NWT) is developed in two dime...
In numerical simulations with moving bodies, and often with complex geometries, generation of high-q...
Offshore structures located in harsh environments may experience large wave loads and wave-induced r...
An efficient and innovative numerical algorithm based on the use of Harmonic Polynomials on each Cel...
The computational cost of solving the Navier-Stokes equations numerically is too high for most full-...
Abstract. Dense particulate flow simulations using integral equation methods demand accurate evaluat...
A sharp interface immersed boundary method is presented for simulating flows around moving boundarie...