Scope of this PhD thesis is the development of efficient algorithms for the numerical simulation of multiscale phenomena in the case of problems described by hyperbolic and/or kinetic equations. Two different and complementary methodologies has been followed: domain decomposition methods and hybrid methods. We remark the generality of the formulation of the methods introduced, in fact both approaches are easily adaptable to different situations and problems as showed in the different parts of the dissertation
The manual describe and examines modern numerical methods for the numerical solution of partial diff...
This paper describes a continuum/kinetic hybrid approach for simulating the continuum to free molecu...
Kinetic equations play an important role in many physical applications. Prominent examples are the B...
In this paper we consider the development of hybrid numerical methods for the solution of hyperboli...
In these notes we present some recent results on the development of hybrid methods for hyperbolic an...
In these notes we present some recent results on the development of hybrid methods for hyperbolic an...
In some recent works [G. Dimarco and L. Pareschi, Comm. Math. Sci., 1 (2006), pp. 155–177; Multiscal...
Hyperbolic and kinetic equations arise in a large variety of industrial problems. For this reason, t...
In this survey we consider the development and the mathematical analysis of numerical methods for ki...
In this paper we consider the development of hybrid numerical methods for the solution of hyperboli...
In this work we consider the development of a new family of hybrid numerical methods for the soluti...
International audienceIn this paper, we construct a hierarchy of hybrid numerical methods for multi-...
In this thesis, numerical solution procedures are developed for simulating chemical phenomena. Mathe...
The aim of this thesis is to contribute to the development of domain decomposition methods which are...
We study numerical solutions for parabolic equations with highly varying (multiscale) coefficients. ...
The manual describe and examines modern numerical methods for the numerical solution of partial diff...
This paper describes a continuum/kinetic hybrid approach for simulating the continuum to free molecu...
Kinetic equations play an important role in many physical applications. Prominent examples are the B...
In this paper we consider the development of hybrid numerical methods for the solution of hyperboli...
In these notes we present some recent results on the development of hybrid methods for hyperbolic an...
In these notes we present some recent results on the development of hybrid methods for hyperbolic an...
In some recent works [G. Dimarco and L. Pareschi, Comm. Math. Sci., 1 (2006), pp. 155–177; Multiscal...
Hyperbolic and kinetic equations arise in a large variety of industrial problems. For this reason, t...
In this survey we consider the development and the mathematical analysis of numerical methods for ki...
In this paper we consider the development of hybrid numerical methods for the solution of hyperboli...
In this work we consider the development of a new family of hybrid numerical methods for the soluti...
International audienceIn this paper, we construct a hierarchy of hybrid numerical methods for multi-...
In this thesis, numerical solution procedures are developed for simulating chemical phenomena. Mathe...
The aim of this thesis is to contribute to the development of domain decomposition methods which are...
We study numerical solutions for parabolic equations with highly varying (multiscale) coefficients. ...
The manual describe and examines modern numerical methods for the numerical solution of partial diff...
This paper describes a continuum/kinetic hybrid approach for simulating the continuum to free molecu...
Kinetic equations play an important role in many physical applications. Prominent examples are the B...