8th International Conference on Electrical and Electronics Engineering (ELECO) -- NOV 28-30, 2013 -- Bursa, TURKEYWOS: 000333752200076Different electrical models of human heart, partial or complete, with linear or nonlinear models have been developed. In the literature, there are some applications of mathematical and physical analog models of total artificial heart (TAH), a baroreceptor model, a state-space model, an electromechanical biventricular model of the heart, and a mathematical model for the artificial generation of electrocardiogram (ECG) signals. Physical models are suitable to simulate real physiological data based on proper experimental set up present. This paper introduces a new mathematical modelling of human heart as a hydro...
The blood flow in human arterial system can be considered as a fluid dynamics problem. Simulation of...
AbstractThe heart is not only our most vital, but also our most complex organ: Precisely controlled ...
Background: The simulation of complex cardiologic structures has the potential to replace clinical s...
Most previous electrical heart models were static, not beating ones. In this paper, we present a met...
Objectives: In this paper, we present a unified electrodynamic heart model that permits simulations ...
This paper deals with the mathematical model that describes the function of the human heart. More sp...
International audienceThis work is dedicated to the simulation of full cycles of the electrical acti...
This paper describes simulation of the cardiovascular system using a complex electronic circuit. In ...
We developed a finite element model of the electrical activity of the whole heart embedded in the to...
To diagnose the conditions and diseases of the cardiovascular system is the main task of electrocard...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...
This report deals with modeling and simulation of human cardiovascular system. The purpose of modeli...
In this paper we introduce the electromechanical mathematical model of the human heart. After derivi...
The aim of this master thesis is to create a simple 3D electro-anatomical model of cardiac tissue th...
We developed a three-dimensional finite element model of the electrical activity of the whole heart ...
The blood flow in human arterial system can be considered as a fluid dynamics problem. Simulation of...
AbstractThe heart is not only our most vital, but also our most complex organ: Precisely controlled ...
Background: The simulation of complex cardiologic structures has the potential to replace clinical s...
Most previous electrical heart models were static, not beating ones. In this paper, we present a met...
Objectives: In this paper, we present a unified electrodynamic heart model that permits simulations ...
This paper deals with the mathematical model that describes the function of the human heart. More sp...
International audienceThis work is dedicated to the simulation of full cycles of the electrical acti...
This paper describes simulation of the cardiovascular system using a complex electronic circuit. In ...
We developed a finite element model of the electrical activity of the whole heart embedded in the to...
To diagnose the conditions and diseases of the cardiovascular system is the main task of electrocard...
Comprehension of the beating of the human heart is important for cardiac research and will improve m...
This report deals with modeling and simulation of human cardiovascular system. The purpose of modeli...
In this paper we introduce the electromechanical mathematical model of the human heart. After derivi...
The aim of this master thesis is to create a simple 3D electro-anatomical model of cardiac tissue th...
We developed a three-dimensional finite element model of the electrical activity of the whole heart ...
The blood flow in human arterial system can be considered as a fluid dynamics problem. Simulation of...
AbstractThe heart is not only our most vital, but also our most complex organ: Precisely controlled ...
Background: The simulation of complex cardiologic structures has the potential to replace clinical s...