The electrocardiographic imaging inverse problem is ill-posed. Regularization has to be applied to stabilize the problem and solve for a realistic solution. Here, we assess different regularization methods for solving the inverse problem. In this study, we assess i) zero order Tikhonov regularization (ZOT) in conjunction with the Method of Fundamental Solutions (MFS), ii) ZOT regularization using the Finite Element Method (FEM) and iii) the L1-Norm regularization of the current density on the heart surface combined with FEM. Moreover, we apply different approaches for computing the optimal regularization parameter, all based on the Generalized Singular Value Decomposition (GSVD). These methods include Generalized Cross Validation (GC...
International audienceThe electrocardiographic imaging (ECGI) inverse problem is highly ill-posed an...
Electrocardiographic imaging (ECGI) is a widely used method of computing potentials on the epicardiu...
Treball fi de màster de: Master in Computational Biomedical EngineeringTutor: Judit Chamorro Servent...
The electrocardiographic imaging inverse problem is ill-posed. Regularization has to be applied to s...
The electrocardiographic imaging inverse problem is ill-posed. Regularization has to be applied to s...
International audienceThe electrocardiographic imaging inverse problem is ill-posed. Regularization ...
Solving the inverse problem of electrocardiology via the Method of Fundamental Solutions has been pr...
The electrocardiographic imaging (ECGI) inverse problem highly relies on adding constraints, a proce...
The electrocardiographic imaging (ECGI) inverse problem highly relies on adding constraints, a proce...
International audienceThe resolution of the inverse problem of electrocardiography represents a majo...
The electrocardiographic imaging (ECGI) inverse problem highly relies on adding constraints, a proce...
The electrocardiogram (ECG) is the standard method in clinical practice to non-invasively analyze th...
Distribution of electrical potentials over the surface of the heart, which is called the epicardial ...
The inverse problem of electrocardiography aims at noninvasively reconstructing electrical activity ...
The electrocardiographic (ECG) inverse problem is ill-posed and usually solved by regularization sch...
International audienceThe electrocardiographic imaging (ECGI) inverse problem is highly ill-posed an...
Electrocardiographic imaging (ECGI) is a widely used method of computing potentials on the epicardiu...
Treball fi de màster de: Master in Computational Biomedical EngineeringTutor: Judit Chamorro Servent...
The electrocardiographic imaging inverse problem is ill-posed. Regularization has to be applied to s...
The electrocardiographic imaging inverse problem is ill-posed. Regularization has to be applied to s...
International audienceThe electrocardiographic imaging inverse problem is ill-posed. Regularization ...
Solving the inverse problem of electrocardiology via the Method of Fundamental Solutions has been pr...
The electrocardiographic imaging (ECGI) inverse problem highly relies on adding constraints, a proce...
The electrocardiographic imaging (ECGI) inverse problem highly relies on adding constraints, a proce...
International audienceThe resolution of the inverse problem of electrocardiography represents a majo...
The electrocardiographic imaging (ECGI) inverse problem highly relies on adding constraints, a proce...
The electrocardiogram (ECG) is the standard method in clinical practice to non-invasively analyze th...
Distribution of electrical potentials over the surface of the heart, which is called the epicardial ...
The inverse problem of electrocardiography aims at noninvasively reconstructing electrical activity ...
The electrocardiographic (ECG) inverse problem is ill-posed and usually solved by regularization sch...
International audienceThe electrocardiographic imaging (ECGI) inverse problem is highly ill-posed an...
Electrocardiographic imaging (ECGI) is a widely used method of computing potentials on the epicardiu...
Treball fi de màster de: Master in Computational Biomedical EngineeringTutor: Judit Chamorro Servent...