A Protocol for Coupling Volumetrically Dynamic In vitro Experiments to Numerical Physiology Simulation for A Hybrid Cardiovascular Model

Creators

Abraham Umo, Clemson University
Ethan Kung, Clemson University

Description

This software contains the codes serving as supplemental data for the pending journal publication: Umo A, Kung E. "A Protocol for Coupling Volumetrically Dynamic In vitro Experiments to Numerical Physiology Simulation for A Hybrid Cardiovascular Model" IEEE Transactions on Biomedical Engineering. The codes run hybrid cardiovascular models that couple a virtual experiment to a lumped-parameter physiology model, and the corresponding integrated models which offer the "gold standard" solution to validate the coupling results. Several physiologic cases are included to demonstrate the performance of the coupling method over a range of scenarios. Related conference presentation: Umo A, Kung E. Method For Coupling Volumetrically Dynamic In Vitro Experiments To Numerical Physiology Simulation For A Hybrid Cardiovascular Model. 9th World Congress of Biomechanics, Taipei, Taiwan, July 10-14, 2022. Cardiovascular Modeling & Experimentation Research Laboratory, Clemson University http://www.cmerl.com

Publication Date

10-6-2022

Publisher

Zenodo

DOI

10.5281/zenodo.7154220

Document Type

Data Set

Recommended Citation

Umo, Abraham; Kung, Ethan (2022), "A Protocol for Coupling Volumetrically Dynamic In vitro Experiments to Numerical Physiology Simulation for A Hybrid Cardiovascular Model", Zenodo, doi: 10.5281/zenodo.7154220

https://doi.org/10.5281/zenodo.7154220

Identifier

7154220

Embargo Date

10-6-2022

Version

1