Quaderni MOX
Pubblicazioni
del Laboratorio di Modellistica e Calcolo Scientifico MOX. I lavori riguardano prevalentemente il campo dell'analisi numerica, della statistica e della modellistica matematica applicata a problemi di interesse ingegneristico. Il sito del Laboratorio MOX è raggiungibile
all'indirizzo mox.polimi.it
Trovati 1249 prodotti
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17/2008 - 17/07/2008
Ern, Alexandre; Perotto, Simona; Veneziani, Alessandro
Hierarchical model reduction for advection-diffusion-reaction problems | Abstract | | Some engineering problems ranging from blood flow to river flow, from
internal combustion engines to electronic devices have been recently modelled by coupling problems with different space dimensions (geometrical
multiscale method). In this paper we focus on a new approch, where different levels of detail of the problem at hand stem from a different selection of the dimension of a suitable function space. The coarse and fine models
are thus identified in a straightforward way. Moreover this approach lends
itself to an automatic model adaptive strategy. The approach is addressed
on a 2D linear advection-diffusion reaction problem |
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16/2008 - 11/07/2008
Formaggia, Luca; Miglio, Edie; Mola, Andrea; Scotti, Anna
Numerical simulation of the dynamics of boats by a variational inequality approach | Abstract | | In this paper we present some recent numerical studies on fluidstructure
interaction problems in the presence of free surface flow. We
consider the dynamics of a rowing boat, simulated as a rigid body. We
focus on an approach based on formulating the floating body problem
as an inequality constraint on the water elevation. A splitting
procedure is used to develop an efficient numerical scheme where the
inequality constraint is imposed only on a wave like equation representing
an hydrostatic approximation of the hydrodynamic equations.
Numerical tests demostrate the effectiveness of the proposed procedure |
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15/2008 - 02/07/2008
Micheletti, Stefano; Perotto, Simona
An anisotropic mesh adaptation procedure for an optimal control problem of the advection-diffusion-reaction equation | Abstract | | We derive an anisotropic a posteriori error estimator for a PDE-con-
strained optimal control problem, governed by the scalar advection-diffusion-
reaction equation. With a view to the advection dominated case, a strongly
consistent symmetric stabilization is employed so that the “optimize-then-
discretize” and “discretize-then-optimize” philosophies coincide and lead
to the same discrete problem. The estimator is turned into an anisotropic
mesh adaptation procedure which allows us to approximate the cost func-
tional within to a given tolerance. Both an academic and a realistic test,
inspired by an environmental application, assess the performance of the
proposed approach. |
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14/2008 - 01/07/2008
D'Angelo, Carlo; Zunino, Paolo
A finite element method based on weighted interior penalties for heterogeneous incompressible flows | Abstract | | We propose a finite element scheme for the approximation of multidomain
heterogeneous problems arising in the general framework of linear
incompressible flows (e.g. Stokes’ and Darcy’s equations). We exploit stabilized
mixed finite elements together with Nitsche type matching conditions
that automatically adapt to the coupling of different subproblem combinations.
Optimal error estimates are derived for the coupled problem. Finally,
we propose and analyze an iterative splitting strategy for the approximation
of the multidomain solution by means of a sequence of independent
and local subproblems. Thanks to the introduction of a suitable relaxation
strategy, the iterative method turns out to be convergent for any possible
coupling between subproblems |
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13/2008 - 30/06/2008
Sangalli, Laura Maria; Secchi, Piercesare; Vantini, Simone; Vitelli, Valeria
K-means alignment for curve clustering | Abstract | | We deal with the problem of curve clustering when curves are mis- aligned. We propose a k-means alignment algorithm which jointly cluster and align the curves. We illustrate the procedure via simulation studies and applications to real data.
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12/2008 - 26/06/2008
Passerini, Tiziano; de Luca, Maria Rita; Formaggia, Luca; Quarteroni, Alfio; Veneziani, Alessandro
A 3D/1D geometrical multiscale model of cerebral vasculature | Abstract | | Geometrical multiscale modeling is a strategy advocated in computational
hemodynamics for representing in a single numerical model dynamics that
involve different space scales. This approach is particularly useful to describe complex
networks such as the circle of Willis in the cerebral vasculature. In this paper
we present a multiscale model of the cerebral circulation where a one dimensional
description of the circle of Willis, relying on the one-dimensional Euler equations, is
coupled to a fully three dimensional model of a carotid artery, based on the solution
of the incompressible Navier-Stokes equations. Even if vascular compliance is often
not relevant to the meaningfulness of 3D results, it is crucial in the multiscale model,
since it is the driving mechanism of pressure wave propagation. Unfortunately, 3D
simulations in compliant domains still demand computational costs significantly
higher than the rigid case. Appropriate matching conditions between the two models
have been devised to concentrate the effects of the compliance at the interfaces and
to obtain reliable results still solving a 3D problems on rigid vessels |
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11/2008 - 05/06/2008
Gerardo-Giorda, Luca; Mirabella, Lucia; Nobile, Fabio; Perego, Mauro; Veneziani, Alessandro
A model preconditioner for the Bidomain problem in electrocardiology | Abstract | | We introduce a preconditioner for the solution of the Bidomain system governing the propagation of action potentials in the myocardial tissue, represented by a degenerate parabolic set of nonlinear reaction-diffusion equations. The nonlinear term describes the ion flux at the cellular level. The degenerate nature of the problem results in a severe ill conditioning of its discretization. Our preconditioning strategy is based on a suitable adaptation of the Monodomain model, a simplified version of the Bidomain one, which is by far simpler to solve, nevertheless is unable to capture significant features of the action potential propagation. We prove optimality for the preconditioner with respect to the mesh size, and corroborate our results with 3D numerical simulations.
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10/2008 - 22/04/2008
Grieco, Niccolò; Corrada, Elena; Sesana, Giovanni; Fontana, Giancarlo; Lombardi, Federico; Ieva, Francesca; Paganoni, Anna Maria; Marzegalli, Maurizio
Predictors of the reduction of treatment time for ST-segment elevation myocardial infarction in a complex urban reality. The MoMi2 survey | Abstract | | Aims: To achieve a rapid and effective reperfusion of infarct related artery in a complex urban reality.
Methods and results: A net that connects the territory to 23 hospitals, by a centralized coordination of the emergency resources has been activated in the Milan urban area to obtain a real time knowledge of critical resources availability and to transmit a 12 lead ECG to the admitting Coronary Care Unit. During the survey periods, data related to 627 patients have been collected. Most of the patients (73%) were treated with primary PCI, 45 (7%) with thrombolysis, 105 (17%) didn’t receive any reperfusion therapy. 57% patients arrived to hospital with rescue units; in 23% of all cases, a 12 lead ECG was tele-transmitted to the hospital of destination before patient arrival.
The modality of hospital presentation was the most critical determinant of door-to-balloon time. The shorter one (49.5 minutes) was that of patients transported by means of Advanced Rescue Units with 12 lead ECG tele-transmission and activation of a fast track directly to the Cath Lab.
Conclusions: Pre-hospital ECG recording is the most critical factor necessary to keep door-toballoon time within suggested limits in a large urban area where most of STEMI patients are treated with PCI. |
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