AbstractThis paper aims to present a bio-computational model that simulates the electrical activation in the heart, mainly designed for people who study or work in the fields of biology, health sciences or medicine with no previous background in programming. The model has been created on a MATLAB environment using the principles of cellular automaton discrete models and Greenberg-Hastings proposal. It visualises the energy propagation on a normal and on a malfunctioning heart tissue during its disturbances. As a result, a computationally inexpensive model has been developed which incorporates various types of cell neighbourhood patterns. In conclusion, the integration of this multi-disciplinary model at the universities could be a very bene...
In this thesis I present a cellular automata model of cardiac conduction. I have modeled heart tissu...
This three-hour workshop will demonstrate how researchers are putting digital tools to use in their ...
Personalized cardiac electrophysiology simulations have demonstrated great potential to study cardia...
AbstractThis paper aims to present a bio-computational model mainly designed for people studying or ...
AbstractThis paper aims to present a bio-computational model that simulates the electrical activatio...
In this thesis, a cellular automata based modelling software is developed for studying the electrica...
Despite over a century’s study, the trigger mechanisms of cardiac arrhythmias are poorly understood....
Abstract Background Many arrhythmias are triggered by abnormal electrical activity at the ionic chan...
Cardiovascular diseases are the leading cause of death worldwide, and are estimated to kill over 17 ...
abstract: As part of a 3-wk intersession workshop funded by a National Science Foundation Expedition...
International audienceIn this work, we develop an interactive framework for rehearsal and training i...
International audienceThis paper presents a new three-dimensional electromechanical model of the two...
SummaryScientists equipped with some of the most advanced supercomputers are attempting to simulate ...
Cardiac rhythm is the result of interactions between millions of heart muscle cells. Genetic, molecu...
The paper deals with a topic of computer simulation possibilities of bioelectromagnetical features a...
In this thesis I present a cellular automata model of cardiac conduction. I have modeled heart tissu...
This three-hour workshop will demonstrate how researchers are putting digital tools to use in their ...
Personalized cardiac electrophysiology simulations have demonstrated great potential to study cardia...
AbstractThis paper aims to present a bio-computational model mainly designed for people studying or ...
AbstractThis paper aims to present a bio-computational model that simulates the electrical activatio...
In this thesis, a cellular automata based modelling software is developed for studying the electrica...
Despite over a century’s study, the trigger mechanisms of cardiac arrhythmias are poorly understood....
Abstract Background Many arrhythmias are triggered by abnormal electrical activity at the ionic chan...
Cardiovascular diseases are the leading cause of death worldwide, and are estimated to kill over 17 ...
abstract: As part of a 3-wk intersession workshop funded by a National Science Foundation Expedition...
International audienceIn this work, we develop an interactive framework for rehearsal and training i...
International audienceThis paper presents a new three-dimensional electromechanical model of the two...
SummaryScientists equipped with some of the most advanced supercomputers are attempting to simulate ...
Cardiac rhythm is the result of interactions between millions of heart muscle cells. Genetic, molecu...
The paper deals with a topic of computer simulation possibilities of bioelectromagnetical features a...
In this thesis I present a cellular automata model of cardiac conduction. I have modeled heart tissu...
This three-hour workshop will demonstrate how researchers are putting digital tools to use in their ...
Personalized cardiac electrophysiology simulations have demonstrated great potential to study cardia...