Micol Pennacchio
Micol Pennacchio
Senior Researcher, IMATI, CNR, Pavia, Italy
Email verificata su imati.cnr.it
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Citata da
Citata da
Anno
Spread of excitation in 3-D models of the anisotropic cardiac tissue. II. Effects of fiber architecture and ventricular geometry
PC Franzone, L Guerri, M Pennacchio, B Taccardi
Mathematical biosciences 147 (2), 131-171, 1998
1611998
Multiscale modeling for the bioelectric activity of the heart
M Pennacchio, G Savaré, PC Franzone
SIAM Journal on Mathematical Analysis 37 (4), 1333-1370, 2005
1552005
Efficient algebraic solution of reaction–diffusion systems for the cardiac excitation process
M Pennacchio, V Simoncini
Journal of Computational and Applied Mathematics 145 (1), 49-70, 2002
942002
Spread of excitation in 3-D models of the anisotropic cardiac tissue. III. Effects of ventricular geometry and fiber structure on the potential distribution
PC Franzone, L Guerri, M Pennacchio, B Taccardi
Mathematical biosciences 151 (1), 51-98, 1998
771998
Algebraic multigrid preconditioners for the bidomain reaction–diffusion system
M Pennacchio, V Simoncini
Applied numerical mathematics 59 (12), 3033-3050, 2009
672009
The mortar finite element method for the cardiac “bidomain” model of extracellular potential
M Pennacchio
Journal of Scientific Computing 20 (2), 191-210, 2004
492004
Anisotropic mechanisms for multiphasic unipolar electrograms: simulation studies and experimental recordings
PC Franzone, L Guerri, M Pennacchio, B Taccardi
Annals of biomedical engineering 28 (11), 1326-1342, 2000
442000
Fast structured AMG preconditioning for the bidomain model in electrocardiology
M Pennacchio, V Simoncini
SIAM Journal on Scientific Computing 33 (2), 721-745, 2011
342011
Accurate computation of electrograms in the left ventricular wall
P Colli-Franzone, M Pennacchio, L Guerri
Mathematical Models and Methods in Applied Sciences 10 (04), 507-538, 2000
272000
BDDC and FETI-DP for the virtual element method
S Bertoluzza, M Pennacchio, D Prada
Calcolo 54 (4), 1565-1593, 2017
232017
Substructuring preconditioners for mortar discretization of a degenerate evolution problem
M Pennacchio, V Simoncini
Journal of Scientific Computing 36 (3), 391-419, 2008
222008
Substructuring preconditioners for an h - p domain decomposition method with interior penalty mortaring
PF Antonietti, BA de Dios, S Bertoluzza, M Pennacchio
Calcolo 52 (3), 289-316, 2015
21*2015
A non-conforming domain decomposition method for the cardiac potential problem
M Pennacchio
Computers in Cardiology 2001. Vol. 28 (Cat. No. 01CH37287), 537-540, 2001
182001
Analysis of substructuring preconditioners for mortar methods in an abstract framework
S Bertoluzza, M Pennacchio
Applied mathematics letters 20 (2), 131-137, 2007
132007
High order VEM on curved domains
S Bertoluzza, M Pennacchio, D Prada
Rendiconti Lincei-Matematica e Applicazioni 30 (2), 391-412, 2019
122019
Preconditioning the Mortar Method by Substructuring: The High Order Case.
S Bertoluzza, M Pennacchio
Applied Numerical Analysis & Computational Mathematics 1 (2), 434-454, 2004
122004
Solution of linear systems from an optimal control problem arising in wind simulation
M Benzi, L Ferragut, M Pennacchio, V Simoncini
Numerical Linear Algebra with Applications 17 (6), 895-915, 2010
112010
Non-symmetric algebraic multigrid preconditioners for the bidomain reaction–diffusion system
M Pennacchio, V Simoncini
Numerical Mathematics and Advanced Applications 2009, 729-736, 2010
82010
A Parallel Implementation of the Mortar Element Method in 2D and 3D
A Samake, S Bertoluzza, M Pennacchio, C Prud’Homme, C Zaza
ESAIM: Proceedings 43, 213-224, 2013
62013
Identification of ventricular fibre architecture from electrotonic epicardial potentials elicited by dipolar stimulations: Numerical and experimental models
E Macchi, M Manghi, G Di Cola, M Groppi, M Pennachio, ...
MEDICAL AND BIOLOGICAL ENGINEERING AND COMPUTING 34, 83-84, 1996
51996
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