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Numerische Mathematik 3 : Adaptive Lösung partieller Differentialgleichungen; 3 (2020)

Deuflhard, Peter ; Weiser, Martin

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Title: Numerische Mathematik 3 : Adaptive Lösung partieller Differentialgleichungen; 3

Author: Deuflhard, Peter

Contributer: Weiser, Martin

Edition: 2. Aufl.

Year of publication: 2020

Series Statement: Numerische Mathematik 3

ISBN: 978-3-11-069168-9

Type of Medium: Book

Language: German

URL: http://search.ebscohost.com/login.aspx?direct=true&db=nlebk&AN=2621406&site=ehost-live

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Zuse Institute Berlin

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Efficient Identification of Scars using Heterogeneous Model Hierarchies (2021)

Chegini, Fatemeh (Dr.) ; Kopanicakova, Alena (Dr.) ; Krause, Rolf (Prof. Dr.) ; [et al.]

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Publication Date: 2023-02-09

Description: Aims. Detection and quantification of myocardial scars are helpful both for diagnosis of heart diseases and for building personalized simulation models. Scar tissue is generally characterized by a different conduction of electrical excitation. We aim at estimating conductivity-related parameters from endocardial mapping data, in particular the conductivity tensor. Solving this inverse problem requires computationally expensive monodomain simulations on fine discretizations. Therefore, we aim at accelerating the estimation using a multilevel method combining electrophysiology models of different complexity, namely the monodomain and the eikonal model. Methods. Distributed parameter estimation is performed by minimizing the misfit between simulated and measured electrical activity on the endocardial surface, subject to the monodomain model and regularization, leading to a constrained optimization problem. We formulate this optimization problem, including the modeling of scar tissue and different regularizations, and design an efficient iterative solver. We consider monodomain grid hierarchies and monodomain-eikonal model hierarchies in a recursive multilevel trust-region method. Results. From several numerical examples, both the efficiency of the method and the estimation quality, depending on the data, are investigated. The multilevel solver is significantly faster than a comparable single level solver. Endocardial mapping data of realistic density appears to be just sufficient to provide quantitatively reasonable estimates of location, size, and shape of scars close to the endocardial surface. Conclusion. In several situations, scar reconstruction based on eikonal and monodomain models differ significantly, suggesting the use of the more accurate but more expensive monodomain model for this purpose. Still, eikonal models can be utilized to accelerate the computations considerably, enabling the use of complex electrophysiology models for estimating myocardial scars from endocardial mapping data.

Language: English

Type: article , doc-type:article

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Adaptive multirate integration of cardiac electrophysiology with spectral deferred correction methods (2022)

Weiser, Martin (Dr.) ; Chegini, Fatemeh (Dr.)

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Publication Date: 2023-03-27

Description: The highly localized dynamics of cardiac electrophysiology models call for adaptive simulation methods. Unfortunately, the overhead incurred by classical mesh adaptivity turns out to outweigh the performance improvements achieved by reducing the problem size. Here, we explore a different approach to adaptivity based on algebraic degree of freedom subset selection during spectral deferred correction sweeps, which realizes a kind of multirate higher order integration. Numerical experience indicates a significant performance increase compared to uniform simulations.

Language: English

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Higher-order time integration using spectral deferred correction method (SDC) in a cell by cell discretization of cardiac excitation (2022)

Weiser, Martin (Dr.) ; Chegini, Fatemeh (Dr.)

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Publication Date: 2023-03-27

Description: This C++ code implements a cell-by-cell model of cardiac excitation using a piecewise-continuous finite element discretization and spectral deferred correction time stepping. The code is based on the Kaskade 7 finite element toolbox and forms a prototype for the µCarp code to be implemented in the Microcard project.

Language: English

Type: software , doc-type:Other

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CINDy: Conditional gradient-based Identification of Non-linear Dynamics – Noise-robust recovery (2021)

Carderera, Alejandro ; Pokutta, Sebastian (Prof. Dr.) ; Schütte, Christof (Prof. Dr.) ; [et al.]

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Publication Date: 2023-04-26

Description: Governing equations are essential to the study of nonlinear dynamics, often enabling the prediction of previously unseen behaviors as well as the inclusion into control strategies. The discovery of governing equations from data thus has the potential to transform data-rich fields where well-established dynamical models remain unknown. This work contributes to the recent trend in data-driven sparse identification of nonlinear dynamics of finding the best sparse fit to observational data in a large library of potential nonlinear models. We propose an efficient first-order Conditional Gradient algorithm for solving the underlying optimization problem. In comparison to the most prominent alternative algorithms, the new algorithm shows significantly improved performance on several essential issues like sparsity-induction, structure-preservation, noise robustness, and sample efficiency. We demonstrate these advantages on several dynamics from the field of synchronization, particle dynamics, and enzyme chemistry.

Language: English

Type: article , doc-type:article

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On the Accuracy of Eikonal Approximations in Cardiac Electrophysiology in the Presence of Fibrosis (2023)

Gander, Lia ; Krause, Rolf (Prof. Dr.) ; Weiser, Martin (Dr.) ; [et al.]

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Publication Date: 2023-08-02

Description: Fibrotic tissue is one of the main risk factors for cardiac arrhythmias. It is therefore a key component in computational studies. In this work, we compare the monodomain equation to two eikonal models for cardiac electrophysiology in the presence of fibrosis. We show that discontinuities in the conductivity field, due to the presence of fibrosis, introduce a delay in the activation times. The monodomain equation and eikonal-diffusion model correctly capture these delays, contrarily to the classical eikonal equation. Importantly, a coarse space discretization of the monodomain equation amplifies these delays, even after accounting for numerical error in conduction velocity. The numerical discretization may also introduce artificial conduction blocks and hence increase propagation complexity. Therefore, some care is required when comparing eikonal models to the discretized monodomain equation.

Language: English

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Impact of mixed precision and storage layout on additive Schwarz smoothers (2021)

Schneck, Jakob ; Weiser, Martin (Dr.) ; Wende, Florian

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Publication Date: 2023-08-04

Description: The growing discrepancy between CPU computing power and memory bandwidth drives more and more numerical algorithms into a bandwidth-bound regime. One example is the overlapping Schwarz smoother, a highly effective building block for iterative multigrid solution of elliptic equations with higher order finite elements. Two options of reducing the required memory bandwidth are sparsity exploiting storage layouts and representing matrix entries with reduced precision in floating point or fixed point format. We investigate the impact of several options on storage demand and contraction rate, both analytically in the context of subspace correction methods and numerically at an example of solid mechanics. Both perspectives agree on the favourite scheme: fixed point representation of Cholesky factors in nested dissection storage.

Language: English

Type: article , doc-type:article

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A primal dual projection algorithm for efficient constraint preconditioning (2021)

Schiela, Anton (Prof. Dr.) ; Stöcklein, Matthias (Dr.) ; Weiser, Martin (Dr.)

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Publication Date: 2023-08-04

Description: We consider a linear iterative solver for large scale linearly constrained quadratic minimization problems that arise, for example, in optimization with PDEs. By a primal-dual projection (PDP) iteration, which can be interpreted and analysed as a gradient method on a quotient space, the given problem can be solved by computing sulutions for a sequence of constrained surrogate problems, projections onto the feasible subspaces, and Lagrange multiplier updates. As a major application we consider a class of optimization problems with PDEs, where PDP can be applied together with a projected cg method using a block triangular constraint preconditioner. Numerical experiments show reliable and competitive performance for an optimal control problem in elasticity.

Language: English

Type: article , doc-type:article

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Sensitivity of temperature-based time since death estimation on measurement location (2023)

Subramaniam, Jayant S. (Dr.) ; Hubig, Michael (Dr.) ; Muggenthaler, Holger (Dr.) ; [et al.]

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Publication Date: 2023-10-16

Description: Rectal temperature measurement (RTM) from crime scenes is an important parameter for temperature-based time of death estimation (TDE). Various influential variables exist in TDE methods like the uncertainty in thermal and environmental parameters. Although RTM depends in particular on the location of measurement position, this relationship has never been investigated separately. The presented study fills this gap using Finite Element (FE) simulations of body cooling. A manually meshed coarse human FE model and an FE geometry model developed from the CT scan of a male corpse are used for TDE sensitivity analysis. The coarse model is considered with and without a support structure of moist soil. As there is no clear definition of ideal rectal temperature measurement location for TDE, possible variations in RTM location (RTML) are considered based on anatomy and forensic practice. The maximum variation of TDE caused by RTML changes is investigated via FE simulation. Moreover, the influence of ambient temperature, of FE model change and of the models positioning on a wet soil underground are also discussed. As a general outcome, we notice that maximum TDE deviations of up to ca. 2-3 h due to RTML deviations have to be expected. The direction of maximum influence of RTML change on TDE generally was on the line caudal to cranial.

Language: English

Type: article , doc-type:article

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Continuity of Microscopic Cardiac Conduction in a Computational Cell-by-Cell Model (2023)

Steyer, Joshua ; Chegini, Fatemeh (Dr.) ; Potse, Mark (Prof.) ; [et al.]

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Publication Date: 2024-02-21

Description: Conduction velocity in cardiac tissue is a crucial electrophysiological parameter for arrhythmia vulnerability. Pathologically reduced conduction velocity facilitates arrhythmogenesis because such conduction velocities decrease the wavelength with which re-entry may occur. Computational studies on CV and how it changes regionally in models at spatial scales multiple times larger than actual cardiac cells exist. However, microscopic conduction within cells and between them have been studied less in simulations. In this work, we study the relation of microscopic conduction patterns and clinically observable macroscopic conduction using an extracellular-membrane-intracellular model which represents cardiac tissue with these subdomains at subcellular resolution. By considering cell arrangement and non-uniform gap junction distribution, it yields anisotropic excitation propagation. This novel kind of model can for example be used to understand how discontinuous conduction on the microscopic level affects fractionation of electrograms in healthy and fibrotic tissue. Along the membrane of a cell, we observed a continuously propagating activation wavefront. When transitioning from one cell to the neighbouring one, jumps in local activation times occurred, which led to lower global conduction velocities than locally within each cell.

Language: English

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