The heart tissue is an excitable media. A Cellular Automata is a type of model that can be used to model cardiac action potential propagation. One of the advantages of this approach against the methods based on differential equations is its high speed in large scale simulations. Recent cellular automata models are not able to avoid flat edges in the result patterns or have large neighborhoods. In this paper, we present a new model to eliminate flat edges by minimum number of neighbors
The use of mathematical models to study cardiac electrophysiology has a long history, and numerous c...
In this paper, we formulate a model for human ventricular cells that is efficient enough for whole o...
Abstract We modify and empirically study an adaptive multiscale model for sim-ulating cardiac action...
Computer modeling has played a unique role in understanding electrocardiography. Modeling and simula...
In this thesis I present a cellular automata model of cardiac conduction. I have modeled heart tissu...
In this paper we introduce our findings which can lead to a mathematical method for simplifying cell...
Background Brain, heart and skeletal muscle share similar properties of excitable tissue, featuring ...
The main goal of this thesis was to investigate the use of HA as a unifying systems biology approach...
AbstractWe propose a new biological framework, spatial networks of hybrid input/output automata (SNH...
We propose a new biological framework, spatial networks of hybrid input/output automata (SNHIOA), fo...
International audienceIt has been suggested in the literature that a disorganization of cardiac tiss...
AbstractThis paper aims to present a bio-computational model mainly designed for people studying or ...
We consider a model for the propagation of electrical impulses or activity in a neuronal network. Th...
AbstractWe propose a new biological framework based on the Lynch et al. theory of Hybrid I/O Automat...
Excitability is a phenomenon seen in different kinds of systems, e.g., biological systems. Cardiac c...
The use of mathematical models to study cardiac electrophysiology has a long history, and numerous c...
In this paper, we formulate a model for human ventricular cells that is efficient enough for whole o...
Abstract We modify and empirically study an adaptive multiscale model for sim-ulating cardiac action...
Computer modeling has played a unique role in understanding electrocardiography. Modeling and simula...
In this thesis I present a cellular automata model of cardiac conduction. I have modeled heart tissu...
In this paper we introduce our findings which can lead to a mathematical method for simplifying cell...
Background Brain, heart and skeletal muscle share similar properties of excitable tissue, featuring ...
The main goal of this thesis was to investigate the use of HA as a unifying systems biology approach...
AbstractWe propose a new biological framework, spatial networks of hybrid input/output automata (SNH...
We propose a new biological framework, spatial networks of hybrid input/output automata (SNHIOA), fo...
International audienceIt has been suggested in the literature that a disorganization of cardiac tiss...
AbstractThis paper aims to present a bio-computational model mainly designed for people studying or ...
We consider a model for the propagation of electrical impulses or activity in a neuronal network. Th...
AbstractWe propose a new biological framework based on the Lynch et al. theory of Hybrid I/O Automat...
Excitability is a phenomenon seen in different kinds of systems, e.g., biological systems. Cardiac c...
The use of mathematical models to study cardiac electrophysiology has a long history, and numerous c...
In this paper, we formulate a model for human ventricular cells that is efficient enough for whole o...
Abstract We modify and empirically study an adaptive multiscale model for sim-ulating cardiac action...