2022
DOI: 10.1088/1361-6560/ac71f2
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Machine learning-based event recognition in SiFi Compton camera imaging for proton therapy monitoring

Abstract: Objective. Online monitoring of dose distribution in proton therapy is currently being investigated with the detection of prompt gamma (PG) radiation emitted from a patient during irradiation. The SiPM and scintillation Fiber based Compton Camera (SiFi-CC) setup is being developed for this aim. Approach. A machine learning approach to recognize Compton events is proposed, reconstructing the PG emission profile during proton therapy. The proposed method was verified on pseudo-data generated by a Geant4 simulati… Show more

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Cited by 7 publications
(2 citation statements)
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“…In addition to the background rejection methods mentioned in section 1, the emerging use of neural networks without requiring additional instrumentation, is also being explored by this (Muñoz et al 2021) and other groups (Zoglauer and Boggs 2007, Polf et al 2021, Kozani and Magiera 2022. Future work will focus on the improvement of the timing capabilities of the MACACO experimental prototype and other strategies to reduce the background in this system, such as the detection of secondary charged particles or the use of neutron absorbers before the system.…”
Section: Discussionmentioning
confidence: 99%
“…In addition to the background rejection methods mentioned in section 1, the emerging use of neural networks without requiring additional instrumentation, is also being explored by this (Muñoz et al 2021) and other groups (Zoglauer and Boggs 2007, Polf et al 2021, Kozani and Magiera 2022. Future work will focus on the improvement of the timing capabilities of the MACACO experimental prototype and other strategies to reduce the background in this system, such as the detection of secondary charged particles or the use of neutron absorbers before the system.…”
Section: Discussionmentioning
confidence: 99%
“…Within the frame of particle therapy, event selection instead of compensation during the reconstruction is often attempted to reduce the impact of accidental coincidences and fortuitous events [69], and/or to compensate for the wrong estimation of the unknown initial energy [126]. Machine learning, in particular deep neural networks, has also shown some potential in this regard [127][128][129][130].…”
Section: Reconstruction Of the Interaction Sequence And Event Selectionmentioning
confidence: 99%