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Computational Modeling of Multiphysics Degrading Systems (CMMDS)
Organized by
John Michopoulos
Description:
THEME:
This session intents to operate within the area of degrading systems as a multiphysics generalization of fracture and damage. The
associated coupled multi-field,
multi-domain, multi-scale and multi-functional models of degrading systems represent complex
encapsulations of mathematical,
algorithmic and numerical representations that today more than ever, require heavy exploitation of computational
technologies not
only for their automated exercise for simulation purposes but also for their automated generation. Every aspect of
technology development in
this context is considered as an area of interest for this
symposium. The rampant evolution of
computational technologies along with the
increasing demand for realistic data-driven whole system behavioral prediction as is motivated by design,
certification and qualification needs,
further expand the scope of this symposium. Therefore, matching complex modeling representations with
the appropriate technology for their
end-user utilization is an overarching frame of this symposium.
MAIN TOPICS:
-- Data-Driven inverse characterization of continuum degrading systems
-- Modeling of degrading continua under multiphysics conditions via
computationally produced and exercised methods.
-- Real-time computational methodologies for physics aware and physics unaware models of degrading systems via
various methods including Finite Element/Volume,
Boundary Element, Finite Differences, as well as Neural Networks, Support Vector Machines etc.
-- Qualification, Validation and Verification of computational technologies for modeling and simulation of
degrading continua behavior.
-- Symbolic algebra-based modeling of degrading systems behavior.
-- Modeling and simulation driven Problem Solving Environments (PSEs)
for degrading systems over computational grids, agents and
Internet technologies.
-- Multi-scale characterization, modelling and
simulation of natural and
artificial composites.
Session Organizer: John Michopoulos
Naval Research Laboratory, Center of Computational
Material Science
Special Projects Group, Code 6390.2, Computational Multiphysics Systems Lab.
Phone: +1-202.767.2189 FAX: +1-202.767.9181
E-mail: john.michopoulos@nrl.navy.mil
Session Chair: Tomonari Furukawa
The
UNSW
Phone: (+61 2) 9385 6091, FAX: (+61 2) 9663 1222
E-mail: t.furukawa@unsw.edu.au
Session Co-chair: Valeria Krzhizhanovskaya
Section Computational Science,
The
E-mail: valeria at
science.uva.nl
Papers
1. Flaw Geometry, Load Sequence and Type, and Material
Axis Orientation on Fracture of Piezoelectric Materials
Corresponding Author: V. G. DeGiorgi
E-mail: degiorgi@anvil.nrl.navy.mil
Co-authors: S. A. Wimmer
2. Inverse characterization of damage in wood-plastic
composites.
John Hermanson
Corresponding author address:
E-mail: jhermans@wisc.edu
3. Title:
TBA
Valeria Krzhizhanovskaya
E-mail: valeria at
science.uva.nl
4. Title:
TBA
Tomonari Furukawa
The
UNSW
Phone: (+61 2) 9385 6091, FAX: (+61 2) 9663 1222
E-mail: t.furukawa@unsw.edu.au
5. Ontology of Degrading Multiphysics
Systems
John Michopoulos
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