Lag correction model and ghosting analysis for an indirect‐conversion flat‐panel imager

机译：间接转换平板成像仪的滞后校正模型和重影分析

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Cone‐beam digital tomosynthesis (CBDT) is a new approach that was recently proposed for rapid tomographic imaging of soft‐tissue targets in the radiotherapy treatment room. One of the potential problems in implementing CBDT using, for example, megavoltage (MV) X rays is the possibility of artifacts caused by image lag and ghosting of the X‐ray detector used. In the present work, we developed a model to correct for image lag with indirect‐conversion flat‐panel imagers (FPIs) used for MV‐CBDT. This model is based on measurement and analysis of image lag in an indirect‐conversion FPI irradiated with a 6‐MV X‐ray beam. Our results demonstrated that image lag is amenable to correction. In addition, we measured the ghosting effect for an indirect‐conversion FPI and found it to be insignificant.PACS numbers: 87.53.Oq, 87.57.Ce

机译：锥形束数字断层合成（CBDT）是一种新方法，最近被提议用于放射治疗室中软组织靶标的快速层析成像。使用兆伏（MV）X射线实施CBDT的潜在问题之一是由图像滞后和所用X射线检测器的重影引起的伪影。在目前的工作中，我们开发了一个模型，用于校正用于MV-CBDT的间接转换平板成像器（FPI）的图像滞后。该模型基于对6 MV X射线束照射的间接转换FPI中图像滞后的测量和分析。我们的结果表明，图像滞后可以校正。此外，我们测量了间接转换FPI的重影效果，发现它不重要.PACS编号：87.53.Oq，87.57.Ce

著录项

期刊名称 Journal of Applied Clinical Medical Physics
作者
Noor Mail; Peter OBrien; Geordi Pang;
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作者单位

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年(卷),期 2007(8),3
年度 2007
页码 137–146
总页数 10
原文格式 PDF
正文语种
中图分类放射医学;影像诊断学;
关键词
cone‐beam digital tomosynthesis cone‐beam computed tomography image lag ghosting flat‐panel imager;

机译：锥束数字层析成像;锥束计算机断层扫描;图像滞后;重影;平板成像仪;
入库时间 2022-08-21 11:04:51

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专利

1. A ghost story: spatio-temporal response characteristics of an indirect-detection flat-panel imager. [J] . Siewerdsen JH, Jaffray DA Medical Physics . 1999,第8期

机译：鬼故事：间接检测型平板成像仪的时空响应特性。
2. Analysis of a free-running synchronization artifact correction for MV-imaging with aSi:H flat panels [J] . Michaela Mooslechner, Bernhard Mitterlechner, Harald Weichenberger, Medical Physics . 2013,第3期

机译：使用aSi：H平板进行MV成像的自由运行同步伪影校正的分析
3. Radiation dose reduction with frame rate conversion in X-ray fluoroscopic imaging systems with flat panel detector: basic study and clinical retrospective analysis [J] . Sakai Noriyuki, Tabei Katsuyuki, Sato Jiro, European radiology . 2019,第2期

机译：用平板探测器X射线荧光透视成像系统中辐射剂量降低，具有平板探测器：基础研究和临床回顾性分析
4. Comparison of a-Se direct-conversion and CsI(Tl) indirect-conversion flat-panel digital detectors: a clinical assessment of image quality for general radiography applications [C] . Lori L. Barski, Xiaohui Wang, John Wtke, Physics of Medical Imaging pt.2; Progress in Biomedical Optics and Imaging; vol.7 no.28 . 2006

机译：a-Se直接转换和CsI（Tl）间接转换平板数字探测器的比较：常规放射成像应用的图像质量的临床评估
5. The x-ray time of flight method for investigation of ghosting in amorphous selenium based flat panel medical x-ray imagers. [D] . Rau, Andreas W. 2005

机译：X射线飞行时间方法，用于研究基于非晶硒的平板医学X射线成像仪中的重影。
6. A forward bias method for lag correction of an a-Si flat panel detector [O] . Jared Starman, Carlo Tognina, Larry Partain, -1

机译：用于a-Si平板探测器滞后校正的正向偏置方法
7. Lag correction model and ghosting analysis for an indirect-conversion flat-panel imager [O] . Noor Mail, Geordi Pang A 2007

机译：间接转换平板成像仪的滞后校正模型和重影分析

Lag correction model and ghosting analysis for an indirect‐conversion flat‐panel imager

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