FIKAL, Najib; ABOULAICH, Rajae; GUARMAH, Emahdi; ZEMZEMI, Nejib

doi:10.1051/mmnp/2018065

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FIKAL, Najib
Laboratoire d'Etudes et Recherche en Mathématiques Appliquées [LERMA]

ABOULAICH, Rajae
Laboratoire d'Etudes et Recherche en Mathématiques Appliquées [LERMA]

GUARMAH, Emahdi
Laboratoire d'Etudes et Recherche en Mathématiques Appliquées [LERMA]

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Mathematical Modelling of Natural Phenomena. 2019-02-15, vol. 14, n° 2

EDP Sciences

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This work investigates the effects of the inputs parameters uncertainties (organs conductivities, boundary data) on the electrocardiography (ECG) imaging problem. These inputs are very important for the construction of the torso potential for the forward problem and for the non-invasive electrical potential on the heart surface in the case of the inverse problem. We propose a new stochastic formulation allowing to combine both sources of errors. We formulate the forward and the inverse stochastic problems by considering the inputs parameters as random fields and a sto-chastic optimal control formulation. In order to quantify multiple independent sources of uncertainties on the forward and inverse solutions, we attribute suitable probability density functions for each randomness source, and apply stochastic finite elements based on generalized polynomial chaos method. The efficiency of this approach to solve the forward and inverse ECG problem and the usability to quantify the effect of organs conductivity and epicardial boundary data uncertainties in the torso are demonstrated through a number of numerical simulations on a 2D computational mesh of a realistic torso geometry.< Réduire

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Uncertainty quantification

Boundary value problem

Stochastic finite elements

Electrocardiography imaging forward and inverse problems

Ill posed problem

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Propagation of two independent sources of uncertainty in the electrocardiography imaging inverse solution

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