We present in this paper a numerical method using basic ideas of mixed hybrid finite element and finite volume methods. It is the reason why we call it mixed hybrid finite volume method. Given a one-dimensional diffusion problem we develop the main aspects of this numerical approach. We show the connection with the classical mixed hybrid finite element method. We also show that mixed hybrid finite volume is an extension of the classical finite volume method at least for diffusion problems. We establish some error estimates with respect to a discrete version of H10norm for the potential and L2 in ||·||_infinity norms for the velocit
Abstract. We present different ways, coming from Finite Volume or Mixed Finite Element frameworks, t...
AbstractRecently, a new theory of high-concentration brine transport in groundwater has been develop...
International audienceMixed finite elements are a numerical method becoming more and more popular in...
International audienceWe investigate the connections between several recent methods for the discreti...
The affluent literature of finite element methods applied to linear parabolic problems, generally, p...
The objective of this paper is to give a non-mathematical presentation of mixed finite elements, fol...
International audienceIn this paper, we study the mixed finite element method for linear diffusion p...
In this article, we carry out the convergence analysis of the dual–mixed hybridized finite volume sc...
The density dependent flow and transport problem in groundwater on three dimensional triangulations ...
An important class of problems in mathematical physics involves equations of the form -¿ · (A¿¿) = f...
AbstractThe density-dependent flow and transport problem in groundwater on three-dimensional triangu...
Mixed Virtual Elements (MVE) is an innovative class of discretization schemes allowing solution of P...
International audienceThis paper is devoted to the numerical simulation of variable density incompre...
AbstractIn this paper we introduce a generalized hybrid finite element/finite volume methods. We the...
Numerical velocity fields arising from the solution of diffusion equations by the finite element (FE...
Abstract. We present different ways, coming from Finite Volume or Mixed Finite Element frameworks, t...
AbstractRecently, a new theory of high-concentration brine transport in groundwater has been develop...
International audienceMixed finite elements are a numerical method becoming more and more popular in...
International audienceWe investigate the connections between several recent methods for the discreti...
The affluent literature of finite element methods applied to linear parabolic problems, generally, p...
The objective of this paper is to give a non-mathematical presentation of mixed finite elements, fol...
International audienceIn this paper, we study the mixed finite element method for linear diffusion p...
In this article, we carry out the convergence analysis of the dual–mixed hybridized finite volume sc...
The density dependent flow and transport problem in groundwater on three dimensional triangulations ...
An important class of problems in mathematical physics involves equations of the form -¿ · (A¿¿) = f...
AbstractThe density-dependent flow and transport problem in groundwater on three-dimensional triangu...
Mixed Virtual Elements (MVE) is an innovative class of discretization schemes allowing solution of P...
International audienceThis paper is devoted to the numerical simulation of variable density incompre...
AbstractIn this paper we introduce a generalized hybrid finite element/finite volume methods. We the...
Numerical velocity fields arising from the solution of diffusion equations by the finite element (FE...
Abstract. We present different ways, coming from Finite Volume or Mixed Finite Element frameworks, t...
AbstractRecently, a new theory of high-concentration brine transport in groundwater has been develop...
International audienceMixed finite elements are a numerical method becoming more and more popular in...