Add to ORKGMathematical models are frequently used to model biological process, such as cardiac electrophysiological systems. In order to separate the models from the implementations, and to facilitate curation, domain specific languages (DSLs) have become a popular and effective means of specifying models (Lloyd et al., 2004; Hucka et al., 2004). In previous papers (Gill et al., 2012a; Gill et al., 2012b; McKeever et al., 2013) we have argued for including parameterised modules as part of such DSLs. We presented our Ode language and showed how models could be created in a generic fashion. In this paper we extend our work with concrete examples and simulation results. We show how complex heart models can be constructed by aggregation, encapsulation an...
Abstract. Many models of the cardiovascular system (e.g. cardiac elec-trical activity, autonomous ne...
Many models of the cardiovascular system (e.g. cardiac electrical activity, autonomous nervous syste...
Many models of the cardiovascular system (e.g. cardiac electrical activity, autonomous nervous syste...
Mathematical models are frequently used to model biological process, such as cardiac electrophysiolo...
Mathematical models have been used to capture the behaviour of biological systems, from low-level bi...
Semantics-based model composition is an approach for generating complex biosimulation models from ex...
AbstractSystem level biological behaviour typically arises from highly dynamic, strongly nonlinear, ...
The use of mathematical models to study cardiac electrophysiology has a long history, and numerous c...
System level biological behaviour typically arises from highly dynamic, strongly nonlinear, tightly ...
The use of mathematical models to study cardiac electrophysiology has a long history, and numerous c...
Single cell and whole organ mathematical models of cardiac electrophysiology, mechanics and metaboli...
In this manuscript we review the state of cardiac cell modelling in the context of international ini...
The paper considers the question ‘what is the model?’ in a specific example of the use of computatio...
<div>Talk I presented at the 16th International Conference on Biomedical Engineering. Submitted abst...
Many models of the cardiovascular system (e.g. cardiac electrical activity, autonomous nervous syste...
Abstract. Many models of the cardiovascular system (e.g. cardiac elec-trical activity, autonomous ne...
Many models of the cardiovascular system (e.g. cardiac electrical activity, autonomous nervous syste...
Many models of the cardiovascular system (e.g. cardiac electrical activity, autonomous nervous syste...
Mathematical models are frequently used to model biological process, such as cardiac electrophysiolo...
Mathematical models have been used to capture the behaviour of biological systems, from low-level bi...
Semantics-based model composition is an approach for generating complex biosimulation models from ex...
AbstractSystem level biological behaviour typically arises from highly dynamic, strongly nonlinear, ...
The use of mathematical models to study cardiac electrophysiology has a long history, and numerous c...
System level biological behaviour typically arises from highly dynamic, strongly nonlinear, tightly ...
The use of mathematical models to study cardiac electrophysiology has a long history, and numerous c...
Single cell and whole organ mathematical models of cardiac electrophysiology, mechanics and metaboli...
In this manuscript we review the state of cardiac cell modelling in the context of international ini...
The paper considers the question ‘what is the model?’ in a specific example of the use of computatio...
<div>Talk I presented at the 16th International Conference on Biomedical Engineering. Submitted abst...
Many models of the cardiovascular system (e.g. cardiac electrical activity, autonomous nervous syste...
Abstract. Many models of the cardiovascular system (e.g. cardiac elec-trical activity, autonomous ne...
Many models of the cardiovascular system (e.g. cardiac electrical activity, autonomous nervous syste...
Many models of the cardiovascular system (e.g. cardiac electrical activity, autonomous nervous syste...