Real-time solution of computational problems using databases of parametric linear reduced-order models with arbitrary underlying meshes
Abstract
A comprehensive approach for real-time computations using a database of parameterized linear reduced-order models (ROMs) is proposed. The method proceeds by sampling offline ROMs for specific values of the parameters and interpolating online the associated reduced operators. In the offline phase, a pre-processing step transforms the reduced operators into consistent sets of generalized coordinates prior to their interpolation. The present paper also introduces a consistency enforcement approach for models defined on arbitrary underlying meshes. In the online phase, the operators are interpolated on matrix manifolds. The proposed framework is illustrated on two realistic multi-physics problems: an inverse acoustic scattering problem around a submarine and flutter predictions for a wing-tank system. The second application is implemented on a mobile device, illustrating the capability of the proposed framework to operate in real-time.
Cite
@article{arxiv.1506.07153,
title = {Real-time solution of computational problems using databases of parametric linear reduced-order models with arbitrary underlying meshes},
author = {David Amsallem and Radek Tezaur and Charbel Farhat},
journal= {arXiv preprint arXiv:1506.07153},
year = {2015}
}