Add to ORKGWe present preliminary work on modelling aspects of the immune system using process algebra. The problem addressed is how T-helper cell populations respond to co-infections with parasites making conflicting immunological demands. Our goal is to build PEPA models of alternative hypotheses around T-helper cell behaviour and to evaluate those with respect to experimental data
This paper gives a brief but systematic overview of topics in "mathematical immunology" and may be c...
The immune system has long been attributed cognitive capacities such as "recognition" of pathogenic ...
Computer simulations of mathematical models open up the possibility of assessing hypotheses generate...
We present preliminary work on modelling aspects of the immune system using process algebra. The pro...
Process algebras are an effective method for defining models of complex interacting biological proce...
Modelling is a powerful method for understanding complex systems, which works by simplifying them to...
As a first approximation of immune-mediated within-host parasite dynamics we can consider the immune...
AbstractWe present two individual based models of disease systems using PEPA (Performance Evaluation...
Immune systems of live forms have been an abundant source of inspiration to contemporary computer sc...
AbstractMany models have been defined in order to describe the evolution of a disease in a populatio...
We demonstrate the use of the process algebra PEPA for realistic models of epidemiology. The results...
Modeling the immune system (IS) means putting together a set of assumptions about its components (ce...
This work describes a computer model of the immune system s response to infection, specifically the ...
Huge amount of medical data has been generated in practical experiments which makes data analysis a ...
We present two individual based models of disease systems using PEPA (Performance Evaluation Process...
This paper gives a brief but systematic overview of topics in "mathematical immunology" and may be c...
The immune system has long been attributed cognitive capacities such as "recognition" of pathogenic ...
Computer simulations of mathematical models open up the possibility of assessing hypotheses generate...
We present preliminary work on modelling aspects of the immune system using process algebra. The pro...
Process algebras are an effective method for defining models of complex interacting biological proce...
Modelling is a powerful method for understanding complex systems, which works by simplifying them to...
As a first approximation of immune-mediated within-host parasite dynamics we can consider the immune...
AbstractWe present two individual based models of disease systems using PEPA (Performance Evaluation...
Immune systems of live forms have been an abundant source of inspiration to contemporary computer sc...
AbstractMany models have been defined in order to describe the evolution of a disease in a populatio...
We demonstrate the use of the process algebra PEPA for realistic models of epidemiology. The results...
Modeling the immune system (IS) means putting together a set of assumptions about its components (ce...
This work describes a computer model of the immune system s response to infection, specifically the ...
Huge amount of medical data has been generated in practical experiments which makes data analysis a ...
We present two individual based models of disease systems using PEPA (Performance Evaluation Process...
This paper gives a brief but systematic overview of topics in "mathematical immunology" and may be c...
The immune system has long been attributed cognitive capacities such as "recognition" of pathogenic ...
Computer simulations of mathematical models open up the possibility of assessing hypotheses generate...