Deep learning enables accurate soft tissue deformation estimation in vivo

Reece D. Huff¹, Frederick Houghton¹, Conner C. Earl², Elnaz Ghajar-Rahimi², Ishan Dogra¹, Andrew J. Darling², Frederick W. Damen², Gouyang Zhou², Denny Yu², Craig J. Goergen², Carisa Harris-Adamson¹, & Grace D. O’Connell¹

¹UC Berkeley & ²Purdue University

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Tutorial

WARNING: This tutorial may be outdated. Please visit the StrainNet GitHub repo for the most up-to-date documentation here.

README.md

Citation

@article{huff2023strainnet, title = {Deep learning enables accurate soft tissue deformation estimation in vivo}, author = {Huff, Reece D and Houghton, Frederick and Earl, Conner C and Ghajar-Rahimi, Elnaz and Dogra, Ishan and Darling, Andrew J and Damen, Frederick W. and Zhou, Gouyang and Yu, Denny and Goergen, Craig J and Harris-Adamson, Carisa and O'Connell, Grace D} journal={TBD}, volume={TBD}, number={TBD}, pages={TBD}, year={2023} }

Acknowledgements

This study was supported by the National Institutes of Health (NIH R21 AR075127-02), the National Science Foundation (NSF GRFP), and the National Institute for Occupational Safety and Health (NIOSH) / Centers for Disease Control and Prevention (CDC) (Training Grant T42OH008429).