Physics‐informed Transfer Learning for Out‐of‐sample Vapor Pressure Predictions
Abstract
Recent advances have enabled machine learning methodologies developed for large datasets to be applied to the small experimental datasets typically available for chemical systems. Such advances typically involve a data‐based approach to transfer learning, where a portion of the experimental data for the property of interest is used to fine‐tune a model that is pre‐trained on computationally generated data. This transfer learning approach does not work for very small experimental datasets, where there are only enough data for model validation. Here, we develop a physics‐informed transfer learning strategy to train a directed‐message passing neural network (D‐MPNN) model, enabling extrapolation outside of the training domain. We demonstrate this approach by training a D‐MPNN model on interpolated vapor pressures and validate the model on an out‐of‐sample test set of energetic molecule vapor pressures, achieving accuracy comparable to those of experiments.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Feb 27, 2023
- Source ID
- 10.1002/prep.202200265
Entities
People
- Brian C. Barnes
- Joshua L Lansford
- Klavs F. Jensen
Organizations
- Defense Advanced Research Projects Agency
- Massachusetts Institute of Technology
- United States Army