PhysiCOOL: A generalized framework for model Calibration and Optimization Of modeLing projects

Inês G. Gonçalves; David A. Hormuth II; Sandhya Prabhakaran; Caleb M. Phillips; José Manuel García-Aznar

doi:10.46471/gigabyte.77

GigaByte (Feb 2023)

PhysiCOOL: A generalized framework for model Calibration and Optimization Of modeLing projects

Inês G. Gonçalves ,
David A. Hormuth II,
Sandhya Prabhakaran ,
Caleb M. Phillips ,
José Manuel García-Aznar

Affiliations

Inês G. Gonçalves: ORCiD; Multiscale in Mechanical and Biological Engineering (M2BE), Aragon Institute of Engineering Research (I3A), University of Zaragoza, Spain
David A. Hormuth II: ORCiD; Oden Institute for Computational Engineering and Sciences, The University of Texas at Austin, USA
Sandhya Prabhakaran: ORCiD; Integrated Mathematical Oncology Department, H.Lee Moffitt Cancer Center and Research Institute, USA
Caleb M. Phillips: ORCiD; Oden Institute for Computational Engineering and Sciences, The University of Texas at Austin, USA
José Manuel García-Aznar: ORCiD; Multiscale in Mechanical and Biological Engineering (M2BE), Aragon Institute of Engineering Research (I3A), University of Zaragoza, Spain

DOI: https://doi.org/10.46471/gigabyte.77

Abstract

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In silico models of biological systems are usually very complex and rely on a large number of parameters describing physical and biological properties that require validation. As such, parameter space exploration is an essential component of computational model development to fully characterize and validate simulation results. Experimental data may also be used to constrain parameter space (or enable model calibration) to enhance the biological relevance of model parameters. One widely used computational platform in the mathematical biology community is PhysiCell, which provides a standardized approach to agent-based models of biological phenomena at different time and spatial scales. Nonetheless, one limitation of PhysiCell is the lack of a generalized approach for parameter space exploration and calibration that can be run without high-performance computing access. Here, we present PhysiCOOL, an open-source Python library tailored to create standardized calibration and optimization routines for PhysiCell models.

Published in GigaByte

ISSN: 2709-4715 (Online)
Publisher: GigaScience Press
Country of publisher: Hong Kong
LCC subjects: Science: Mathematics: Instruments and machines: Electronic computers. Computer science
Website: https://gigabytejournal.com/

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