openSSS is an open source implementation of scatter estimation for 3D TOF-PET based on the TOF-aware Single Scatter Simulation (SSS) algorithm proposed by Watson [1]. It is compatible with any reconstruction platform. This implementation is in Matlab, tested on version R2021b.
It was validated for three pet system geometries, on Monte-Carlo simulated data and two vendor's specific reconstruction platforms. The results have been accepted for an oral presentation at IEEE MIC2023:
openSSS: an open-source implementation of scatter estimation for 3D TOF-PET
R. José Santo1, A. Salomon2, H. W.A.M. de Jong3, S. Stute4, 5, T. Merlin6, C. Beijst1
https://www.eventclass.org/contxt_ieee2023/scientific/online-program/session?s=M-09
IEEE NSS MIC 2023 Conference proceedings
- UMC Utrecht, Imaging & Oncology, Utrecht, The Netherlands; [email protected]
- Philips Research Europe, Eindhoven, Netherlands
- UMC Utrecht, Radiology & Nuclear Medicine, Utrecht, The Netherlands
- CHU de Nantes, Nuclear Medicine, Nantes, France
- Université d'Angers, Université de Nantes, CRCINA, Inserm, CNRS, Pays de la Loire, France
- University of Brest, LaTIM, INSERM, UMR 1101, Brest, France
[1] C. C. Watson, "Extension of single scatter simulation to scatter correction of time-of-flight PET," IEEE Nuclear Science Symposium Conference Record, 2005, Fajardo, PR, USA, pp. 2492-2496, 2005.