Image lag modeling and correction method for flat panel detector in cone-beam CT

Huang Kui-Dong; Zhang Ding-Hua; Li Ming-Jun; Zhang Hua

doi:10.7498/aps.62.210702

Abstract

Cone-beam computed tomography (CT) has the notable features, viz high efficiency and high precision, and is widely used in the areas such as medical imaging and industrial non-destructive testing, but the presence of image lag reduces the quality of CT images. By referencing the multi-exponential decay model for the image lag and combining with the actual decay rule of the flat panel detector output signal, a new decay modeling and correction method for the image lag based on multi-exponential fitting is proposed. Firstly, an imaging experiment using cone-beam CT based on flat panel detector is carried out; the results show that the image lag decay of the pixels in the flat panel detector has a good consistency, and is irrelevant to the initial gray value. Then, the rapid image lag correction is achieved according to the image lag decay model, and the comparison of image quality of the projected images and slice images before and after image lag correction indicates that the edge sharpness of the part has been significantly improved after the lag correction. This method does not need to obtain the scintillation compositions and the decay time constants of the detector, and is easily applied to the practical cone-beam CT imaging systems for image lag detection and correction.

Keywords:

Authors and contacts

1.
Key Lab of Contemporary Design and Integrated Manufacturing Technology (Northwestern Polytechnical University), Ministry of Education, Xi’an 710072, China;
2.
School of Mechanical Engineering, Northwestern Polytechnical University, Xi’an 710072, China
Funds: Project supported by the National Science and Technology Major Project of the Ministry of Industry and Information Technology of China (Grant No. 2012ZX04007021), the Young Scientists Fund of the National Natural Science Foundation of China (Grant No. 51105315), the Natural Science Basic Research Program of Shaanxi Province, China (Grant No. 2013JM7003), and the Northwestern Polytechnical University Foundation for Fundamental Research, China (Grant Nos. JC20110253, JC20120226).

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Cited By

[1]	Luo Z Y, Yang X Q, Meng Y Z, Deng Y 2010 Acta Phys. Sin. 59 8237 (in Chinese) [罗召洋, 杨孝全, 孟远征, 邓勇 2010 物理学报 59 8237]
[2]	Wang X C, Yan B, Liu H K, Li L, Wei X, Hu G E 2013 Acta Phys. Sin. 62 098702 (in Chinese) [汪先超, 闫镔, 刘宏奎, 李磊, 魏星, 胡国恩 2013 物理学报 62 098702]
[3]	Kasap S, Frey J B, Belev G, Tousignant O, Mani H, Greenspan J, Laperriere L, Bubon O, Reznik A, DeCrescenzo G, Karim K S, Rowlands J A 2011 Sensors 11 5112
[4]	Hsieh J, Gurmen O E, King K F 1999 Radiology 213 318
[5]	Hsieh J, Gurmen O E, King K F 2000 IEEE Trans. Med. Img. 19 930
[6]	Lei Y H, Liu X, Guo J C, Zhao Z G, Niu H B 2011 Chin. Phys. B 20 042901
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[8]	Hofmann T, Burtzlaff S, Voland V, Salamon M, Nachtrab F, Sukowski F, Uhlmann N 2009 Nuclear Instruments and Methods in Physics Research A 607 187
[9]	Mainprize J G, Wang X Y, Yaffe M J 2009 Proceedings of SPIE Medical Imaging 2009: Physics of Medical Imaging Orlando, USA, February 7–12, 2009 p72580R
[10]	Colbeth R E, Mollov I P, Roos P G, Shapiro E G 2005 Proceedings of SPIE Medical Imaging 2005: Physics of Medical Imaging San Diego, USA, February 15–17, 2005 p387
[11]	Zhang Y, Ning R, Conover D 2006 Proceedings of SPIE Medical Imaging 2006: Physics of Medical Imaging San Diego, USA, February 12–16, 2006 p61420Z
[12]	Tanaka R, Ichikawa K, Mori S, Dobashi S, Kumagaya M, Kawashima H, Morita S, Sanada S 2010 Proceedings of SPIE Medical Imaging 2010: Physics of Medical Imaging San Diego, USA, February 15–18, 2010 p76224S
[13]	Carton A K, Puong S, Iordache R, Muller S 2011 Proceedings of SPIE Medical Imaging 2011: Physics of Medical Imaging Orlando, USA, February 13–17, 2011 p79611D
[14]	Mail N, O’Brien P, Pang G 2007 J. Appl. Clin. Med. Phys. 8 2483
[15]	Mail N, Moseley D J, Siewerdsen J H, Jaffray D A 2008 Med. Phys. 35 5187

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Vol. 62, Issue 21 - 2013-11-05

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