Add to ORKGIn this paper, a methodology for fine scale modeling of large scale structures is proposed, which combines the variational multiscale method, domain decomposition and model order reduction. The influence of the fine scale on the coarse scale is modelled by the use of an additive split of the displacement field, addressing applications without a clear scale separation. Local reduced spaces are constructed by solving an oversampling problem with random boundary conditions. Herein, we inform the boundary conditions by a global reduced problem and compare our approach using physically meaningful correlated samples with existing approaches using uncorrelated samples. The local spaces are designed such that the local contribution of each subdomai...
Towards rationalised computational expense for simulating fracture over multiple scales The project ...
AbstractThe paper proposes some new computational strategies for affordably solving multiscale fract...
This work proposes a special type of Finite Element (FE) technology – the Empirical Interscale FE me...
In analyzing large scale structures it is necessary to take into account the fine scale heterogeneit...
In this article, a methodology for fine scale modeling of large scale linear elastic structures is p...
We are concerned with employing Model Order Reduction (MOR) to efficiently solve parameterized multi...
This work aims at deriving special types of one-dimensional Finite Elements (1D FE) for efficiently ...
This work focuses on the numerical modeling of fracture and its propagationin heterogeneous material...
Simulating fracture in realistic engineering components is computationally expensive. In the context...
Large scale finite element models are routinely used in design and optimization for com-plex enginee...
The paper proposes some new computational strategies for affordably solving multiscale fracture prob...
In this paper, we discuss a general multiscale model reduction framework based on multiscale finite ...
International audienceThis article is concerned with a multi-scale domain decomposition method (DDM)...
A novel model-order reduction technique for the solution of the fine-scale equilibrium problem appea...
We present an extension of the computational homogenization theory to cases where different structur...
Towards rationalised computational expense for simulating fracture over multiple scales The project ...
AbstractThe paper proposes some new computational strategies for affordably solving multiscale fract...
This work proposes a special type of Finite Element (FE) technology – the Empirical Interscale FE me...
In analyzing large scale structures it is necessary to take into account the fine scale heterogeneit...
In this article, a methodology for fine scale modeling of large scale linear elastic structures is p...
We are concerned with employing Model Order Reduction (MOR) to efficiently solve parameterized multi...
This work aims at deriving special types of one-dimensional Finite Elements (1D FE) for efficiently ...
This work focuses on the numerical modeling of fracture and its propagationin heterogeneous material...
Simulating fracture in realistic engineering components is computationally expensive. In the context...
Large scale finite element models are routinely used in design and optimization for com-plex enginee...
The paper proposes some new computational strategies for affordably solving multiscale fracture prob...
In this paper, we discuss a general multiscale model reduction framework based on multiscale finite ...
International audienceThis article is concerned with a multi-scale domain decomposition method (DDM)...
A novel model-order reduction technique for the solution of the fine-scale equilibrium problem appea...
We present an extension of the computational homogenization theory to cases where different structur...
Towards rationalised computational expense for simulating fracture over multiple scales The project ...
AbstractThe paper proposes some new computational strategies for affordably solving multiscale fract...
This work proposes a special type of Finite Element (FE) technology – the Empirical Interscale FE me...