The objective of this book is to navigate beginning graduate students in mathematics and engineering through a mature field of multiscale problems in homogenization theory and to provide an idea of its broad scope. An overview of a wide spectrum of homogenization techniques ranging from classical two-scale asymptotic expansions to Gamma convergence and the rapidly developing field of stochastic homogenization is presented. The mathematical proofs and definitions are supplemented with intuitive explanations and figures to make them easier to follow. A blend of mathematics and examples from materials science and engineering is designed to teach a mixed audience of mathematical and non-mathematical students
International audienceThe mathematical tools for the up-scaling from micro to macro in periodic medi...
Abstract. The asymptotic expansion method is generalized from the periodic set-ting to stationary er...
This article focuses on computational multiscale methods for the mechanical response of nonlinear he...
This introduction to multiscale methods gives readers a broad overview of the many uses and applicat...
This introduction to multiscale methods gives readers a broad overview of their many uses and applic...
We present an introduction to the asymptotic homogenization technique as a follow up of the four hou...
This paper is a set of lecture notes for a short introductory course on homogenization. It...
This book presents and discusses the state of the art and future perspectives in mathematical modeli...
This book presents and discusses the state of the art and future perspectives in mathematical modeli...
Homogenization is a mathematical theory for studying differential equations with rapidly oscillating...
In the past decades, considerable progress had been made in bridging the mechanics of materials to o...
Abstract. This paper is a set of lecture notes for a short introductory course on homogenization. It...
Homogenization is a collection of powerful techniques in partial differential equations that are use...
A wide variety of techniques have been developed to homogenize transport equations in multiscale and...
This thesis is devoted to homogenization theory and some generalizations of Rothe's method to non-cy...
International audienceThe mathematical tools for the up-scaling from micro to macro in periodic medi...
Abstract. The asymptotic expansion method is generalized from the periodic set-ting to stationary er...
This article focuses on computational multiscale methods for the mechanical response of nonlinear he...
This introduction to multiscale methods gives readers a broad overview of the many uses and applicat...
This introduction to multiscale methods gives readers a broad overview of their many uses and applic...
We present an introduction to the asymptotic homogenization technique as a follow up of the four hou...
This paper is a set of lecture notes for a short introductory course on homogenization. It...
This book presents and discusses the state of the art and future perspectives in mathematical modeli...
This book presents and discusses the state of the art and future perspectives in mathematical modeli...
Homogenization is a mathematical theory for studying differential equations with rapidly oscillating...
In the past decades, considerable progress had been made in bridging the mechanics of materials to o...
Abstract. This paper is a set of lecture notes for a short introductory course on homogenization. It...
Homogenization is a collection of powerful techniques in partial differential equations that are use...
A wide variety of techniques have been developed to homogenize transport equations in multiscale and...
This thesis is devoted to homogenization theory and some generalizations of Rothe's method to non-cy...
International audienceThe mathematical tools for the up-scaling from micro to macro in periodic medi...
Abstract. The asymptotic expansion method is generalized from the periodic set-ting to stationary er...
This article focuses on computational multiscale methods for the mechanical response of nonlinear he...