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ORCIDAdvanced Modeling and Simulation in Engineering Sciences, Volume 3
Volume 3, Number 1, December 2016
- Rémi Abgrall, David Amsallem, Roxana Crisovan:
Robust model reduction by L1-norm minimization and approximation via dictionaries: application to nonlinear hyperbolic problems. 1:1-1:16 - Irineu L. Palhares Junior
, Cassio M. Oishi, Alexandre M. Afonso, Manuel A. Alves, Fernando Pinho:
Numerical study of the square-root conformation tensor formulation for confined and free-surface viscoelastic fluid flows. 2:1-2:23 - Mejdi Azaïez, Faker Ben Belgacem, Tomás Chacón Rebollo:
Recursive POD expansion for reaction-diffusion equation. 3:1-3:22 - Nicolas Bur, Pierre Joyot, Chady Ghnatios, Pierre Villon, Elías Cueto, Francisco Chinesta:
On the use of model order reduction for simulating automated fibre placement processes. 4:1-4:18 - Ba-Trung Cao, Steffen Freitag, Günther Meschke:
A hybrid RNN-GPOD surrogate model for real-time settlement predictions in mechanised tunnelling. 5:1-5:22 - David Amsallem, Bernard Haasdonk:
PEBL-ROM: Projection-error based local reduced-order models. 6:1-6:25 - Alejandro Cosimo, Alberto Cardona, Sergio R. Idelsohn:
General treatment of essential boundary conditions in reduced order models for non-linear problems. 7:1-7:14 - Florian De Vuyst:
Efficient solvers for time-dependent problems: a review of IMEX, LATIN, PARAEXP and PARAREAL algorithms for heat-type problems with potential use of approximate exponential integrators and reduced-order models. 8:1-8:14 - Thomas Rüberg, José Manuel García-Aznar:
Numerical simulation of solid deformation driven by creeping flow using an immersed finite element method. 9:1-9:31 - Laurent Montier, Thomas Henneron, Stéphane Clénet, Benjamin Goursaud:
Transient simulation of an electrical rotating machine achieved through model order reduction. 10:1-10:17 - Benjamin Peherstorfer, Karen Willcox:
Dynamic data-driven model reduction: adapting reduced models from incomplete data. 11:1-11:22 - Anthony Giacoma, David Dureisseix, Anthony Gravouil:
An efficient quasi-optimal space-time PGD application to frictional contact mechanics. 12:1-12:17 - Alejandro C. Limache, Sergio R. Idelsohn:
On the issue that Finite Element discretizations violate, nodally, Clausius's postulate of the second law of thermodynamics. 13:1-13:18 - Eugenio Oñate:
Finite increment calculus (FIC): a framework for deriving enhanced computational methods in mechanics. 14:1-14:18 - David Ryckelynck, Djamel Missoum Benziane:
Hyper-reduction framework for model calibration in plasticity-induced fatigue. 15:1-15:16 - Guillaume Guguin, Olivier Allix, Pierre Gosselet, Stéphane Guinard:
On the computation of plate assemblies using realistic 3D joint model: a non-intrusive approach. 16:1-16:18 - François Hild, Amine Bouterf, Ludovic Chamoin, Hugo Leclerc, Florent Mathieu, Jan Neggers, Florent Henri Marc Rémy Pled, Zvonimir Tomicevic, Stéphane Roux:
Toward 4D mechanical correlation. 17:1-17:26 - Ludovic Chamoin, Pierre-Eric Allier, Basile Marchand:
Synergies between the constitutive relation error concept and PGD model reduction for simplified V&V procedures. 18:1-18:26 - H. R. Javani, Ron H. J. Peerlings, Marc G. D. Geers:
Three-dimensional finite element modeling of ductile crack initiation and propagation. 19:1-19:25 - Dennis Grunert, Jörg Fehr:
Identification of nonlinear behavior with clustering techniques in car crash simulations for better model reduction. 20:1-20:19 - Filippo Salmoiraghi, Francesco Ballarin, Luca Heltai, Gianluigi Rozza:
Isogeometric analysis-based reduced order modelling for incompressible linear viscous flows in parametrized shapes. 21:1-21:22 - Thomas Rüberg, Fehmi Cirak, José Manuel García-Aznar:
An unstructured immersed finite element method for nonlinear solid mechanics. 22:1-22:28 - Alex Ferrer, Javier Oliver, Juan Carlos Cante, Oriol Lloberas-Valls:
Vademecum-based approach to multi-scale topological material design. 23:1-23:22 - Hermann G. Matthies, Elmar Zander, Bojana V. Rosic, Alexander Litvinenko:
Parameter estimation via conditional expectation: a Bayesian inversion. 24:1-24:21 - Peter Wriggers, Jörg Schröder, Ferdinando Auricchio:
Finite element formulations for large strain anisotropic material with inextensible fibers. 25:1-25:18 - Tianyi Li, Jean-Jacques Marigo, Daniel Guilbaud, Serguei Potapov:
Numerical investigation of dynamic brittle fracture via gradient damage models. 26:1-26:24 - Christian Schröppel, Jens Wackerfuß:
Introducing the Logarithmic finite element method: a geometrically exact planar Bernoulli beam element. 27:1-27:42 - Alberto Corigliano, Federica Confalonieri, Martino Dossi, Stefano Mariani:
Coupled domain decomposition-proper orthogonal decomposition methods for the simulation of quasi-brittle fracture processes. 28:1-28:24 - Annika Radermacher, Brett A. Bednarcyk, Bertram Stier, Jaan-Willem Simon, Lei Zhou, Stefanie Reese:
Displacement-based multiscale modeling of fiber-reinforced composites by means of proper orthogonal decomposition. 29:1-29:23 - Ralston Fernandes, Sami El-Borgi, Khaled Ahmed, Michael I. Friswell, Nidhal Jamia:
Static fracture and modal analysis simulation of a gas turbine compressor blade and bladed disk system. 30:1-30:23 - Muhammad Haris Malik, Domenico Borzacchiello, Francisco Chinesta, Pedro Díez:
Reduced order modeling for transient simulation of power systems using trajectory piece-wise linear approximation. 31:1-31:18 - Dennis Grunert, Jörg Fehr:
Erratum to: Identification of nonlinear behavior with clustering techniques in car crash simulations for better model reduction. 32:1 - Davide D'Angella, Nils Zander, Stefan Kollmannsberger, Felix Frischmann, Ernst Rank, Andreas Schröder, Alessandro Reali:
Multi-level hp-adaptivity and explicit error estimation. 33:1-33:18
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