Add to ORKGA least-squares method based on the first-order velocity-pressure-vorticity formulation for the Stokes problem is proposed. This method leads to a minimization problem rather than to a saddle-point problem. The choice of the combinations of elements is thus not subject to the Ladyzhenskaya-Babuska-Brezzi (LBB) condition. Numerical results are given for the optimal rate of convergence for equal-order interpolations
In the present contribution we compare different mixed least-squares finite element formula-tions (L...
This article studies a least-squares finite element method for the numerical approximation of compre...
Usually the theoretical analysis of the Navier-Stokes equations is conducted via the Galerkin method...
A least-squares finite element method, based on the velocity-pressure-vorticity formulation, is deve...
In this paper we consider the application of least-squares principles to the approximate solution of...
AbstractA finite element method based on a least-squares variational principle is developed for the ...
AbstractThe paper concerns a nonlinear weighted least-squares finite element method for the solution...
Two new L2 least-squares (LS) finite element methods are developed for the velocity-pressure-vortici...
Two new L2 least-squares (LS) finite element methods are developed for the velocity-pressure-vortici...
AbstractThe approximate solution of optimization and control problems for systems governedby the Sto...
Recently there has been substantial interest in least-squares finite element methods for velocity-vo...
AbstractThe paper concerns a nonlinear weighted least-squares finite element method for the solution...
AbstractThe approximate solution of optimization and control problems for systems governedby the Sto...
Abstract. First-order least-squares method of a distributed optimal con-trol problem for the incompr...
An overview is given of new developments of the least squares finite element method (LSFEM) in fluid...
In the present contribution we compare different mixed least-squares finite element formula-tions (L...
This article studies a least-squares finite element method for the numerical approximation of compre...
Usually the theoretical analysis of the Navier-Stokes equations is conducted via the Galerkin method...
A least-squares finite element method, based on the velocity-pressure-vorticity formulation, is deve...
In this paper we consider the application of least-squares principles to the approximate solution of...
AbstractA finite element method based on a least-squares variational principle is developed for the ...
AbstractThe paper concerns a nonlinear weighted least-squares finite element method for the solution...
Two new L2 least-squares (LS) finite element methods are developed for the velocity-pressure-vortici...
Two new L2 least-squares (LS) finite element methods are developed for the velocity-pressure-vortici...
AbstractThe approximate solution of optimization and control problems for systems governedby the Sto...
Recently there has been substantial interest in least-squares finite element methods for velocity-vo...
AbstractThe paper concerns a nonlinear weighted least-squares finite element method for the solution...
AbstractThe approximate solution of optimization and control problems for systems governedby the Sto...
Abstract. First-order least-squares method of a distributed optimal con-trol problem for the incompr...
An overview is given of new developments of the least squares finite element method (LSFEM) in fluid...
In the present contribution we compare different mixed least-squares finite element formula-tions (L...
This article studies a least-squares finite element method for the numerical approximation of compre...
Usually the theoretical analysis of the Navier-Stokes equations is conducted via the Galerkin method...