A reduced basis hybrid method for the coupling of parametrized domains represented by fluidic networks

Iapichino, Laura; Quarteroni, Alfio; Rozza, Gianluigi

doi:10.1016/j.cma.2012.02.005

Cited by 70 publications

(63 citation statements)

References 26 publications

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“…A domain decomposition approach [131,132], combined with a reduced basis method, has been successfully applied in [94,97,92] and further extensions discussed in [68,72,65]. A coupled multiphysics setting has been proposed for simple fluid-structure interaction problems in [85,84,80] and [106] for Stokes-Darcy.…”

Section: Historical Background and Perspectivesmentioning

confidence: 99%

Certified Reduced Basis Methods for Parametrized Partial Differential Equations

Hesthaven¹,

Rozza²,

Stamm³

2016

SpringerBriefs in Mathematics

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The final publication is available at Springer via http://dx.doi.org/10.1007/978-3-319-22470-1International audienceThis book provides a thorough introduction to the mathematical and algorithmic aspects of certified reduced basis methods for parametrized partial differential equations. Central aspects ranging from model construction, error estimation and computational efficiency to empirical interpolation methods are discussed in detail for coercive problems. More advanced aspects associated with time-dependent problems, non-compliant and non-coercive problems and applications with geometric variation are also discussed as examples

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Section: Historical Background and Perspectivesmentioning

confidence: 99%

Certified Reduced Basis Methods for Parametrized Partial Differential Equations

Hesthaven¹,

Rozza²,

Stamm³

2016

SpringerBriefs in Mathematics

Self Cite

865

1,221

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show abstract

“…(ii) Problems dealing with (homogeneous or even heterogeneous) couplings in a multiphysics setting and based on domain decomposition techniques: a domain decomposition approach [29,65] combined with reduced basis method has been successfully applied in [27,28,66] and further extensions are foreseen [67]. A coupled multiphysics setting has been proposed for simple fluid-structure interaction problems [68,69].…”

Section: Extension To Complex Problemsmentioning

confidence: 99%

Certified reduced basis approximation for parametrized partial differential equations and applications

2011

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Reduction strategies, such as model order reduction (MOR) or reduced basis (RB) methods, in scientific computing may become crucial in applications of increasing complexity. In this paper we review the reduced basis methods (built upon a high-fidelity 'truth' finite element approximation) for a rapid and reliable approximation of parametrized partial differential equations, and comment on their potential impact on applications of industrial interest. The essential ingredients of RB methodology are: a Galerkin projection onto a low-dimensional space of basis functions properly selected, an affine parametric dependence enabling to perform a competitive Offline-Online splitting in the computational procedure, and a rigorous a posteriori error estimation used for both the basis selection and the certification of the solution. The combination of these three factors yields substantial computational savings which are at the basis of an efficient model order reduction, ideally suited for realtime simulation and many-query contexts (for example, optimization, control or parameter identification). After a brief excursus on the methodology, we focus on linear elliptic and parabolic problems, discussing some extensions to more general classes of problems and several perspectives of the ongoing research. We present some re-A Quarteroni · G Rozza ( ) · A Manzoni

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“…The domain under consideration is then built up from the representative domains (possibly using deformation mappings) and computations are carried out in a space built up from the precomputed spaces. The Reduced Basis Hybrid method [43] and the Reduced Basis Domain Decomposition Finite Element method [44] make use of this concept. In [45], Maier and co-workers introduce a RB approach for heterogeneous domain decomposition that could be used in the current setting to reduce the number of global snapshots, too.…”

Section: The Localized Reduced Basis Multiscale Methodsmentioning

confidence: 99%

The localized reduced basis multiscale method for two‐phase flows in porous media

Kaulmann¹,

Flemisch

Haasdonk³

et al. 2014

Numerical Meth Engineering

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In this work, we propose a novel model order reduction approach for twophase flow in porous media by introducing a formulation in which the mobility, which realizes the coupling between phase saturations and phase pressures, is regarded as a parameter to the pressure equation. Using this formulation, we introduce the Localized Reduced Basis Multiscale method to obtain a low-dimensional surrogate of the high-dimensional pressure equation. By applying ideas from model order reduction for parametrized partial differential equations, we are able to split the computational effort for solving the pressure equation into a costly offline step that is performed only once and an inexpensive online step that is carried out in every time step of the two-phase flow simulation, which is thereby largely accelerated. Usage of elements from numerical multiscale methods allows us to displace the computational intensity between the offline and online step to reach an ideal runtime at acceptable error increase for the two-phase flow simulation.

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A reduced basis hybrid method for the coupling of parametrized domains represented by fluidic networks

Cited by 70 publications

References 26 publications

Certified Reduced Basis Methods for Parametrized Partial Differential Equations

Certified Reduced Basis Methods for Parametrized Partial Differential Equations

Certified reduced basis approximation for parametrized partial differential equations and applications

The localized reduced basis multiscale method for two‐phase flows in porous media

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