This paper focuses on a new three-level discretisation strategy which enables the transition between continuum/structural (I) and structural/black box modelling (II). The transition (I) is realised by means of a model adaptive concept based on an innovative finite element technology. For transition (II) we apply the truncated balanced realisation method (TBR). The latter represents an established system theoretical model reduction technique which is here combined with a novel substructure technique. The approach provides a modular concept to facilitate the computational analysis of complex structures. The final goal is to apply the strategy to life time estimation
Le présent mémoire de thèse propose de nouvelles méthodes de simulation pour la prédiction du compor...
In the last decades, significant interest has raised in modelling and analysing the structural respo...
1.1. Background The concept covers a broad range of mathematical concepts from algebraic formulas to...
This paper focuses on a new three-level discretisation strategy which enables the transition between...
Traditional calculation technologies are based on substantial simplifications and do not allow for v...
International audienceIn our opinion, many of complex numerical models in materials science can be r...
Lifecycle management of structural systems represents an approach to face with the time-dependent re...
The nonlinear dynamic analysis to obtain the response of whole building structures or structural com...
In the present study, different model order reduction methods were compared in terms of their effect...
This technical note introduces a novel model conversion technique for structural dynamic systems tha...
Robust structures are necessary in order to avoid a progressive collapse if a local failure occurs, ...
For structural health monitoring it is impractical to identify a large structure with complete measu...
The paper proposes an approach to determining the increase of the normative lifetime of building str...
Civil engineering systems are often complex and pose significant challenge for modelling and compute...
Civil engineering systems are often complex and pose significant challenge for modelling and compute...
Le présent mémoire de thèse propose de nouvelles méthodes de simulation pour la prédiction du compor...
In the last decades, significant interest has raised in modelling and analysing the structural respo...
1.1. Background The concept covers a broad range of mathematical concepts from algebraic formulas to...
This paper focuses on a new three-level discretisation strategy which enables the transition between...
Traditional calculation technologies are based on substantial simplifications and do not allow for v...
International audienceIn our opinion, many of complex numerical models in materials science can be r...
Lifecycle management of structural systems represents an approach to face with the time-dependent re...
The nonlinear dynamic analysis to obtain the response of whole building structures or structural com...
In the present study, different model order reduction methods were compared in terms of their effect...
This technical note introduces a novel model conversion technique for structural dynamic systems tha...
Robust structures are necessary in order to avoid a progressive collapse if a local failure occurs, ...
For structural health monitoring it is impractical to identify a large structure with complete measu...
The paper proposes an approach to determining the increase of the normative lifetime of building str...
Civil engineering systems are often complex and pose significant challenge for modelling and compute...
Civil engineering systems are often complex and pose significant challenge for modelling and compute...
Le présent mémoire de thèse propose de nouvelles méthodes de simulation pour la prédiction du compor...
In the last decades, significant interest has raised in modelling and analysing the structural respo...
1.1. Background The concept covers a broad range of mathematical concepts from algebraic formulas to...