Inverse problem in electrocardography via the factorization method of boundary value problems

Author

Bouyssier, Julien ; Zemzemi, Nejib ; Henry, Jacques

Author_Institution

Centre Bordeaux Sud-Ouest, INRIA, Bordeaux, France

fYear

2015

fDate

16-19 April 2015

Firstpage

743

Lastpage

746

Abstract

We present a new mathematical approach for solving the inverse problem in electrocardiography. This approach is based on the factorization of boundary value problems method. In this paper we derive the mathematical equations and test this method on synthetical data generated on realistic heart and torso geometries using the state-of-the-art bidomain model in the heart coupled to the Laplace equation in the torso. We measure the accuracy of the inverse solution using spatial Relative Error (RE) and Correlation Coefficient (CC).

Keywords

Laplace equations; boundary-value problems; computational geometry; electrocardiography; inverse problems; Laplace equation; boundary value problem; correlation coefficient; electrocardiography; factorization method; inverse problem; inverse solution accuracy; mathematical equation; realistic heart geometry; realistic torso geometry; spatial relative error; state-of-the-art bidomain model; Boundary value problems; Electric potential; Heart; Inverse problems; Mathematical model; Three-dimensional displays; Torso; Inverse problem; Riccati equations; boundary value problems; electrocardiagraphic imaging (ECGI); electrocardiography; factorization method;

fLanguage

English

Publisher

ieee

Conference_Titel

Biomedical Imaging (ISBI), 2015 IEEE 12th International Symposium on

Conference_Location

New York, NY

Type

conf

DOI

10.1109/ISBI.2015.7163979

Filename

7163979