Pontificia Universidad Católica de Chile Pontificia Universidad Católica de Chile
Garay J., Dunstan J., Uribe S., Sahli F. (2024)

Physics-informed neural networks for parameter estimation in blood flow models

Revista : Computers in Biology and Medicine
Volumen : 178
Tipo de publicación : ISI Ir a publicación

Abstract

Physics-informed neural networks (PINNs) have emerged as a powerful tool for solving inverse problems, especially in cases where no complete information about the system is known and scatter measurements are available. This is especially useful in hemodynamics since the boundary information is often difficult to model, and high-quality blood flow measurements are generally hard to obtain.
Methods:
In this work, we use the PINNs methodology for estimating reduced-order model parameters and the full velocity field from scatter 2D noisy measurements in the aorta. Two different flow regimes, stationary and transient were studied.
Results:
We show robust and relatively accurate parameter estimations when using the method with simulated data, while the velocity reconstruction accuracy shows dependence on the measurement quality and the flow pattern complexity. Comparison with a Kalman filter approach shows similar results when the number of parameters to be estimated is low to medium. For a higher number of parameters, only PINNs were capable of achieving good results.