<--- Back to Details
First PageDocument Content
Cardiology / Heart diseases / Pathology / Physiology / Virtual Physiological Human / Medical emergencies / Myocardial infarction / CellML / Cardiovascular disease / Medicine / Aging-associated diseases / Health
Date: 2013-04-10 10:46:10
Cardiology
Heart diseases
Pathology
Physiology
Virtual Physiological Human
Medical emergencies
Myocardial infarction
CellML
Cardiovascular disease
Medicine
Aging-associated diseases
Health

FP7-ICT[removed]Project Final Report euHeart page 1 of 59

Add to Reading List

Source URL: www.euheart.eu

Download Document from Source Website

File Size: 4,68 MB

Share Document on Facebook

Similar Documents

PDF Document

DocID: 1wAYq - View Document

Academia / CellML / Computing / Mathematics / Scientific modeling / Computational science / Scientific modelling / Simulation / Computer simulation / Economic model / Mathematical model / Quantitative analyst

Automatic Validation and Optimisation of Biological Models Jonathan Cooper St John’s College

DocID: 1rqZa - View Document

Systems biology / Biology / Computing / Systems science / Bioinformatics / Biological databases / Genetics / Molecular biology / CellML / BioModels Database / SBML / MIRIAM Registry

Identifying, Interpreting, and Communicating Changes in XML-encoded Models of Biological Systems Martin Scharm1,? , Olaf Wolkenhauer1,2 , and Dagmar Waltemath1 1

DocID: 1rbVd - View Document

Systems biology / Systems science / Biology / Academia / CellML / Masaru Tomita / Gene regulatory network / Bioinformatics / Spreadsheet / Simulation / Modelling biological systems / Physiomics

Genome Informatics 12: 316–Design and Development of Software Environment for Whole-Cell Simulation

DocID: 1qYai - View Document

Electrophysiology / Cellular neuroscience / Cellular processes / Membrane biology / Nervous system / CellML / Bidomain model / Cellular model / Action potential / Membrane potential / Mathematical and theoretical biology

Considerations for the use of cellular electrophysiology models within cardiac tissue simulations Jonathan Coopera,∗, Alberto Corriasa,1 , David Gavaghana , Denis Nobleb a b

DocID: 1pnOk - View Document