Investigation of an in situ position calibration method for continuous crystal-based PET detectors

Peter Bruyndonckx; Cedric Lemaitre; Dennis Schaart; Marnix Maas; D. J. van der Laan; Magalie Krieguer; Olivier Devroede; Stefaan Tavernier

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Investigation of an in situ position calibration method for continuous crystal-based PET detectors

机译：基于连续晶体的PET探测器的原位校准方法研究

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The absence of very small crystal pixels in monolithic scintillation detectors has a number of potential advantages such as higher sensitivity, better energy resolution and continuous coordinates. In such detectors, the photon incidence position on the detector surface is derived from the measured scintillation light distribution using artificial neural networks (NNs). To this end, each detector module has to be position-calibrated by training the NNs. An automated procedure to simultaneously obtain the calibration data to train NNs for all detector modules in a fully assembled PET system has been developed and evaluated on a simulator set-up.

机译：单片闪烁检测器中不存在非常小的晶体像素，具有许多潜在的优势，例如更高的灵敏度，更好的能量分辨率和连续坐标。在这种探测器中，探测器表面上的光子入射位置是使用人工神经网络（NN）从测量的闪烁光分布中得出的。为此，必须通过训练NN来对每个检测器模块进行位置校准。已经开发了一种自动程序，可同时获取校准数据以训练完全组装的PET系统中所有检测器模块的NN，并在模拟器上进行了评估。

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《Nuclear Instruments & Methods in Physics Research》 |2007年第2期|304-307|共4页
作者
Peter Bruyndonckx; Cedric Lemaitre; Dennis Schaart; Marnix Maas; D. J. van der Laan; Magalie Krieguer; Olivier Devroede; Stefaan Tavernier;
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作者单位

Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussel, Belgium;

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原文格式 PDF
正文语种 eng
中图分类计量学;原子能技术;原子核物理学、高能物理学;
关键词
positron emission tomography; APD; scintillator; neural network; positron calibration;

机译：正电子发射断层扫描APD;闪烁体神经网络;正电子校准;

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专利

1. Investigation of an in situ position calibration method for continuous crystal-based PET detectors [J] . Bruyndonckx P, Lemaitre C, Schaart D, Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment . 2007,第1a2期

机译：基于连续晶体的PET探测器的原位校准方法研究
2. Calibration Method of Laser Detection System With Position Sensitive Detector [J] . Ju Tan, Yu Jiyan, Ming Chao, IEEE Aerospace and Electronic Systems Magazine . 2020,第1期

机译：具有位置敏感探测器的激光检测系统校准方法
3. Calibration Method of Laser Detection System With Position Sensitive Detector [J] . Ju Tan, Yu Jiyan, Ming Chao, Trends in Ecology & Evolution . 2020,第1期

机译：具有位置敏感探测器的激光检测系统校准方法
4. PET calibration method of nonlinear position estimation algorithms for continuous NaI(Tl) crystals [C] . Venialgo E., Verrastro C., Estryk D., Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC), 2011 IEEE . 2011

机译：连续NaI（Tl）晶体非线性位置估计算法的PET标定方法
5. The Use of a Novel Radiation Detector on Quantifying PET/Nuclear Medicine Occupational and Non-occupational Doses and Calibration of MOSFET Radiation Detectors against Effective Energy. [D] . Ding, Lei. 2013

机译：新型辐射检测器在量化PET /核医学职业和非职业剂量以及针对有效能量对MOSFET辐射检测器进行校准方面的应用。
6. Calibration Method for ML Estimation of 3D Interaction Position in a Thick Gamma-Ray Detector [O] . William C. J. Hunter, Harrison H. Barrett, Lars R. Furenlid -1

机译：厚伽马射线探测器中3D相互作用位置的ML估计的校准方法
7. Towards monolithic scintillator based TOF-PET systems: practical methods for detector calibration and operation [O] . Giacomo Borghi, Valerio Tabacchini, Dennis R Schaart 2016

机译：走向单片闪烁体的TOF-PET系统：探测器校准和操作的实用方法

Investigation of an in situ position calibration method for continuous crystal-based PET detectors

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