20–22 nov. 2024
IPHC, Strasbourg
Fuseau horaire Europe/Paris

Deep learning methods with uncertainity estimation for gamma photon interactions reconstruction in fast scintillators

20 nov. 2024, 14:40
25m
Amphi Grïnewald (IPHC, Strasbourg)

Amphi Grïnewald

IPHC, Strasbourg

Batiment 27, BP28, 67037 Cedex 2, 23 Rue du Loess, 67200 Strasbourg
Object detection and reconstruction Wednesday afternoon

Orateur

Dominique Yvon (CEA Saclay - IRFU/SPP)

Description

This talk presents a physics-informed deep learning method for the quantitative estimation of the spatial coordinates of gamma interactions within a monolithic scintillator, with a focus on Positron Emission Tomography (PET) imaging. A Density Neural Network approach is designed to estimate the 2-dimensional gamma photon interaction coordinates in a fast lead tungstate (PbWO4) monolithic scintillator detector. We introduce a custom loss function to estimate the inherent uncertainties associated with the reconstruction process and to incorporate the physical constraints of the detector.
This unique combination allows for more robust and reliable position estimations and the obtained results demonstrate the effectiveness of the proposed approach and highlights the significant benefits of the uncertainties estimation. We discuss its potential impact on improving PET imaging quality and show how the results can be used to improve the exploitation of the model, to bring benefits to the application and how to evaluate the validity of the given prediction and the associated uncertainties. Importantly, our proposed methodology extends beyond this specific use case, as it can be generalized to other applications beyond PET imaging.

Auteurs principaux

Dominique Yvon (CEA Saclay - IRFU/SPP) Dr Geoffrey Daniel (CEA/DES/ISAS/DM2S/SGLS/LIAD)

Co-auteur

Documents de présentation