Add to ORKGThe Variational Germano Identity [1, 2] is used to optimize the coefficients of residual-based subgrid-scale models that arise from the application of a Variational Multiscale Method [3, 4]. It is demonstrated that numerical iterative methods can be used to solve the Germano relations to obtain values for the parameters of subgrid-scale models that are nonlinear in their coefficients. Specifically, the Newton-Raphson method is employed. A least-squares minimization formulation of the Germano Identity is developed to resolve issues that occur when the residual is positive and negative over different regions of the domain. In this case a Broyden-Fletcher-Goldfarb-Shanno (BFGS) algorithm is used to solve the minimization problem. The developed...
We present an appropriate extension of the stabilized finite element formulation, introduced in [A. ...
A solution-adaptive grid procedure based on optimization is developed and applied to the Linearized ...
This paper discusses a numerical subgrid resolution approach for solving the Stokes-Brinkman system ...
The Variational Germano Identity [1, 2] is used to optimize the coefficients of residual-based subgr...
This thesis demonstrated how the Newton and BFGS algorithm could be used to solve the standard VGM r...
Parameters for SGS models within the variational multiscale method for the Stokes equations are dete...
In this chapter the recently introduced Variational Germano procedure is revisited. The procedure is...
A Residual-Based Large-Eddy Simulation (RB-LES) method is developed. This is done by discretizing th...
We initiate the study of the discontinuous Galerkin residual-based variational multiscale (DG-RVMS) ...
A semi-continuous formulation is introduced for finding bases which minimise the error in a specific...
In this paper the recently introduced Variational Germano procedure is revisited. The procedure is e...
A numerical approximation for the one-dimensional Burgers equation is proposed by means of the ortho...
This is the accepted version of the following article: [Bayona C, Baiges J, Codina R. Variational mu...
In this contribution we explore some numerical alternatives to derive efficient and robust low-order...
A numerical approximation for the one‐dimensional Burgers equation is proposed by means of the ortho...
We present an appropriate extension of the stabilized finite element formulation, introduced in [A. ...
A solution-adaptive grid procedure based on optimization is developed and applied to the Linearized ...
This paper discusses a numerical subgrid resolution approach for solving the Stokes-Brinkman system ...
The Variational Germano Identity [1, 2] is used to optimize the coefficients of residual-based subgr...
This thesis demonstrated how the Newton and BFGS algorithm could be used to solve the standard VGM r...
Parameters for SGS models within the variational multiscale method for the Stokes equations are dete...
In this chapter the recently introduced Variational Germano procedure is revisited. The procedure is...
A Residual-Based Large-Eddy Simulation (RB-LES) method is developed. This is done by discretizing th...
We initiate the study of the discontinuous Galerkin residual-based variational multiscale (DG-RVMS) ...
A semi-continuous formulation is introduced for finding bases which minimise the error in a specific...
In this paper the recently introduced Variational Germano procedure is revisited. The procedure is e...
A numerical approximation for the one-dimensional Burgers equation is proposed by means of the ortho...
This is the accepted version of the following article: [Bayona C, Baiges J, Codina R. Variational mu...
In this contribution we explore some numerical alternatives to derive efficient and robust low-order...
A numerical approximation for the one‐dimensional Burgers equation is proposed by means of the ortho...
We present an appropriate extension of the stabilized finite element formulation, introduced in [A. ...
A solution-adaptive grid procedure based on optimization is developed and applied to the Linearized ...
This paper discusses a numerical subgrid resolution approach for solving the Stokes-Brinkman system ...