Bridging finite element and machine learning modeling: stress prediction of arterial walls in atherosclerosis
Finite element and machine learning modeling are two predictive paradigms that have rarely
been bridged. In this study, we develop a parametric model to generate arterial geometries …
been bridged. In this study, we develop a parametric model to generate arterial geometries …
Bridging Finite Element and Machine Learning Modeling: Stress Prediction of Arterial Walls in Atherosclerosis
A Madani, A Bakhaty, J Kim… - Journal of …, 2019 - pubmed.ncbi.nlm.nih.gov
Finite element and machine learning modeling are two predictive paradigms that have rarely
been bridged. In this study, we develop a parametric model to generate arterial geometries …
been bridged. In this study, we develop a parametric model to generate arterial geometries …
Bridging Finite Element and Machine Learning Modeling: Stress Prediction of Arterial Walls in Atherosclerosis.
A Madani, A Bakhaty, J Kim, Y Mubarak… - Journal of …, 2019 - europepmc.org
Finite element and machine learning modeling are two predictive paradigms that have rarely
been bridged. In this study, we develop a parametric model to generate arterial geometries …
been bridged. In this study, we develop a parametric model to generate arterial geometries …
[PDF][PDF] Bridging Finite Element and Machine Learning Modeling: Stress Prediction of Arterial Walls in Atherosclerosis
A Madani, A Bakhaty - researchgate.net
Finite element and machine learning modeling are two predictive paradigms that have rarely
been bridged. In this study, we develop a parametric model to generate arterial geometries …
been bridged. In this study, we develop a parametric model to generate arterial geometries …
Bridging Finite Element and Machine Learning Modeling: Stress Prediction of Arterial Walls in Atherosclerosis
A Madani, A Bakhaty - asmedigitalcollection.asme.org
Finite element and machine learning modeling are two predictive paradigms that have rarely
been bridged. In this study, we develop a parametric model to generate arterial geometries …
been bridged. In this study, we develop a parametric model to generate arterial geometries …