DDEMA: a data driven environment for multiphysics applications

Authors:
John Michopoulos;Panagiota Tsompanopoulou;Elias Houstis;John Rice;Charbel Farhat;Michel Lesoinne;Frederic Lechenault
Affiliations:
U.S. Naval Research Laboratory, Washington, DC;University of Thessaly, Dept. of Comp. Eng. and Telecommunications, Volos, Greece;Purdue University, Computer Sciences Department, W. Lafayette, IN and University of Thessaly, Dept. of Comp. Eng. and Telecommunications, Volos, Greece;Purdue University, Computer Sciences Department, W. Lafayette, IN;University of Colorado at Boulder, Dept. of Aerospace Engineering Sciences, Boulder, CO;University of Colorado at Boulder, Dept. of Aerospace Engineering Sciences, Boulder, CO;University of Colorado at Boulder, Dept. of Aerospace Engineering Sciences, Boulder, CO
Venue:
ICCS'03 Proceedings of the 2003 international conference on Computational science
Year:
2003

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Abstract

In this paper we present the design of a multidisciplined problem solving environment (MPSE) for supporting an efficient prediction capability for the response of multiscale interdisciplinary continuous interacting systems. This design takes into consideration information technologies, coupled multiphysics sciences, and data-driveness to steer adaptive modelling and simulation of the underlying systemic behavior. The paper describes the design objectives and software architecture of DDEMA in the context of two multidisciplinary applications related to material/structure design of supersonic platforms and fire/material/environment interaction monitoring, assessment and management.