In this paper we introduce the electromechanical mathematical model of the human heart. After deriving it from physical first principles, we discuss its mathematical properties and the way numerical methods can be set up to obtain numerical approximations of the (otherwise unachievable) mathematical solutions. The major challenges that we need to face-e.g., possible lack of initial and boundary data, the trade off between increasing the accuracy of the numerical model and its computational complexity-are addressed. Numerical tests here presented have a twofold aim: to show that numerical solutions match the expected theoretical rate of convergence, and that our model can provide a preliminary valuable tool to face problems of clinical relev...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
Effective numerical modeling of the cardiac electro-mechanics still presents open challenging proble...
International audienceThis chapter presents a concise overview of various mathematical and numerical...
In this paper we introduce the electromechanical mathematical model of the human heart. After derivi...
This paper deals with the mathematical model that describes the function of the human heart. More sp...
In this paper, we present a mathematical model able to simulate the cardiac function. We first descr...
Given the relevance of cardiac maladies in today's society, investigation driven towards the underst...
The investigation and simulation of the main cardiac functions are increasingly using biophysically ...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
The electrical activation of the heart is the biological process that regulates the contraction of t...
The increasing availability of extensive and accurate clinical data is rapidly shaping cardiovascula...
Mathematical modeling of the human heart and its function can expand our understanding of various ca...
AbstractThe heart is not only our most vital, but also our most complex organ: Precisely controlled ...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
In this project, we develop a Finite Element Method (FEM) formulation that solves the cardiac electr...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
Effective numerical modeling of the cardiac electro-mechanics still presents open challenging proble...
International audienceThis chapter presents a concise overview of various mathematical and numerical...
In this paper we introduce the electromechanical mathematical model of the human heart. After derivi...
This paper deals with the mathematical model that describes the function of the human heart. More sp...
In this paper, we present a mathematical model able to simulate the cardiac function. We first descr...
Given the relevance of cardiac maladies in today's society, investigation driven towards the underst...
The investigation and simulation of the main cardiac functions are increasingly using biophysically ...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
The electrical activation of the heart is the biological process that regulates the contraction of t...
The increasing availability of extensive and accurate clinical data is rapidly shaping cardiovascula...
Mathematical modeling of the human heart and its function can expand our understanding of various ca...
AbstractThe heart is not only our most vital, but also our most complex organ: Precisely controlled ...
Mathematical modelling of the human heart and its function can expand our understanding of various c...
In this project, we develop a Finite Element Method (FEM) formulation that solves the cardiac electr...
An accurate understanding of cardiac function necessitates the knowledge of regulation of electromec...
Effective numerical modeling of the cardiac electro-mechanics still presents open challenging proble...
International audienceThis chapter presents a concise overview of various mathematical and numerical...