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Test and Optimization of Timing Algorithms for PET Detectors with Digital Sampling Front-End

B. Joly,G. Montarou,J. Lecoq,G. Bohner,M. Crouau,M. Brossard,P-E. Vert

2008 IEEE Nuclear Science Symposium Conference Record（2008）

Lab Phys Corpusculaire Clermont Ferrand

Cited 9|Views2

Abstract

We tested a digital front-end concept in order to evaluate the time resolution of PET detectors based on APD or PMT with digital read-out. Measurements were done on a coincidence set-up with two detection blocks composed of a fast inorganic scintillator (LaBr3 or LYSO) coupled to a photodetector (APD or PMT), preamplificators and prefilters. The signals were sampled at high rate (250MHz for APDs, 5GHz for PMTs) and treated offline. Two different timing algorithms were applied: a digital method deriving from constant fraction discriminator, and an optimal filtering technique based on parameter estimation with minimal variance. The classical optimal filter was adapted to the non-stationary noise conditions, with a significant improvement of timing resolution. We describe these algorithms and discuss their performances.

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Research of Digital Constant Fraction Discriminator in PET System

DU Yao-yao,WU Jian-ping,HU Xuan-hou,WANG Pei-lin,LI Xiao-hui,LI Dao-wu,LI Ke,WEI Long

Hedianzixue yu tance jishu 2012

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Digital Signal Processing Techniques to Improve Time Resolution in Positron Emission Tomography

J. M. Monzo,R. Esteve,C. W. Lerche,N. Ferrando,J. Toledo,R. J. Aliaga,V. Herrero,F. J. Mora

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Fully Digital FPGA-based Data Acquisition System for Dual Head PET Detectors

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Methods to Compensate the Time Walk Errors in Timing Measurements for PET Detectors

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Chat Paper

【要点】：本文研究了基于数字采样前端的时间算法在PET探测器中的应用，并对两种时间算法进行了测试和优化，提高了时间分辨率。

【方法】：采用基于APD或PMT的数字读出前端，应用数字常数分数鉴别器和最小方差参数估计的最优滤波技术两种时间算法。

【实验】：在具有两个由快速无机闪烁体（LaBr3或LYSO）与APD或PMT光电探测器耦合的检测块的符合装置上进行了测量，信号以高速（APD为250MHz，PMT为5GHz）采样并离线处理，通过比较两种算法的性能来优化时间分辨率。

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