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Supplementary Material for: Numerical algebraic geometry for mo del selection and its application to the life sciences

Authors :
Gross, Elizabeth
Davis, Brent
Ho, Kenneth L.
Bates, Daniel J.
Harrington, Heather A.
Publication Year :
2016
Publisher :
The Royal Society, 2016.

Abstract

Researchers working with mathematical models are often confronted by the related problems of parameter estimation, model validation and model selection. These are all optimization problems, well known to be challenging wooing to nonlinearity, non-convexity and multiple local optima. Furthermore, the challenges are compounded when only partial data are available. Here, we consider polynomial models (e.g. mass-action chemical reaction networks at steady state) and describe a framework for their analysis based on optimization, using numerical algebraic geometry. Specifically, we use probability-one polynomial homotopy continuation methods to compute all critical points of the objective function, then filter to recover the global optima. Our approach exploits the geometrical structures relating models and data, and we demonstrate its utility on examples from cell signalling, synthetic biology and epidemiology.

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....6347437ac0896cac9c7058fae32980e4
Full Text :
https://doi.org/10.6084/m9.figshare.3979899