Image reconstruction based on total variation minimization and alternating direction method for Compton scatter tomography

Gu Yu-Fei; Yan Bin; Li Lei; Wei Feng; Han Yu; Chen Jian

doi:10.7498/aps.63.018701

Abstract

Compton scatter tomography measures samples electron densities utilizing the scattered photons. Compared to traditional transmission imaging models, Compton scatter tomography has the following characteristics, i.e. freedom in construction systems, greater sensitivity for low-density materials, and lower radiation dose. It has been applied in non-destructive testing, medical, and security inspections, and other fields. However, Compton scatter tomography reconstruction is a nonlinear inverse problem, common is ill-posed, and its solutions are very sensitive to noise and erroneous measurements. To tackle the problem, in this paper we propose a novel Compton scatter tomography reconstruction algorithm based on the total variation minimization and alternating direction method. The main idea of our method is to reformulate the reconstruction problems TV function as an optimization with constrains where the objective function is separable, and then minimize its augmented Lagrangian function by using alternating direction method to solve the sub-problems. Numerical experiments shows that the reconstruction quality and efficiency of the proposed method are improved compared to the adaptive-steepest-descent-projection onto convex sets method.

Keywords:

Authors and contacts

1.
National Digital Switching System Engineering and Technological Research Center, Zhengzhou 450002, China
Funds: Project supported by the National High Technology Research and Development Program of China (Grant No. 2012AA011603), and the National Natural Science Foundation of China (Grant No. 61372172).

References

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[2]	Hussein E M A, Desrosiers M, Waller E J 2005 Radiat. Phys. Chem. 73 7
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[7]	Pistolesi M, Miniati M 1981 Nucl. Med. All. Sci. 25 182
[8]	Shin W P, Sunwoo Y, Jun S R 2006 Nuclear Instruments and Methods 568 369
[9]	Michael D H, Joseph J M, Dennis G L, Gary L C 1994 IEEE T. Med. Imaging 13 461
[10]	Lale P G 1959 Phys. Med. Biol. 18 532
[11]	Wang J J, Huang X W, Zhong X R 2004 Chinese Journal of Scientific Instrument 25 164 (in Chinese) [王加俊, 黄贤武, 仲兴荣 2004 仪器仪表学 25 164]
[12]	Truong T T, Nguyen M K 2011 Inverse Problems 27 1
[13]	Farmer F T, Collins M P 1971 Phys. Med. Bio. 16 577
[14]	Kondic N N, Jacobs A M, Ebert D 1983 American Nuclear Society 2 1443
[15]	Hussein E M, AMeneley D A, Banerjee S 1986 Nucl. Sci. Eng. 92 341
[16]	Arendtsz N V, Hussein E M A 1995 IEEE Trans. Nucl. Sci. 42 2155
[17]	Wang J J, Huang X W, Zhao R 2004 Microelectronics & Computer 21 95 (in Chinese) [王加俊, 黄贤武, 赵然 2004 微电子学与计算机 21 95]
[18]	ArendtszN V, HusseinE M A 1993 SPIE Vol. 2035 Mathematical Methods in Medical Imaging Ⅱ San Diego, CA, July, 1993 p230
[19]	Li S P, Wang L Y, Yan B, Li L, Liu Y J 2012 Chin. Phys. B 21 108703
[20]	Candes E, Tao T 2006 IEEE Trans. Inf. Theory 52 5406
[21]	Candes E, Romberg J, Tao T 2006 IEEE Trans. Inf. Theory 52 489
[22]	Sidky E Y, Pan X 2008 Phys. Med. Biol. 53 4777
[23]	Zhang H M, Wang L Y, Yan B, Li L, Xi X Q, Lu L Z 2013 Chin. Phys. B 22 078701
[24]	Li C B 2009 MS Dissertation (Houston: Rice University)
[25]	Wang Y L, Yang J F, Yin W T, Zhang Y 2008 SIAM J. Imag. Sci. 1 248

Cited By

[1]	Tang S S, Hussein E M A 2004 Appl. Radiat.Isot. 61 3
[2]	Hussein E M A, Desrosiers M, Waller E J 2005 Radiat. Phys. Chem. 73 7
[3]	Evans B L, Martin J B, Burggraf L W, Roggemann M C, Hangartner T N 2002 Nuclear Instruments and Methods in Physics Research A 480 797
[4]	Harding G, Harding E 2010 Appl. Radiat. Isot. 68 993
[5]	Harding G 2004 Radiat. Phys. Chem. 71 869
[6]	Faysal E K, Ilan Y, Hussein E M A 2003 Phys. Med. Biol. 48 3445
[7]	Pistolesi M, Miniati M 1981 Nucl. Med. All. Sci. 25 182
[8]	Shin W P, Sunwoo Y, Jun S R 2006 Nuclear Instruments and Methods 568 369
[9]	Michael D H, Joseph J M, Dennis G L, Gary L C 1994 IEEE T. Med. Imaging 13 461
[10]	Lale P G 1959 Phys. Med. Biol. 18 532
[11]	Wang J J, Huang X W, Zhong X R 2004 Chinese Journal of Scientific Instrument 25 164 (in Chinese) [王加俊, 黄贤武, 仲兴荣 2004 仪器仪表学 25 164]
[12]	Truong T T, Nguyen M K 2011 Inverse Problems 27 1
[13]	Farmer F T, Collins M P 1971 Phys. Med. Bio. 16 577
[14]	Kondic N N, Jacobs A M, Ebert D 1983 American Nuclear Society 2 1443
[15]	Hussein E M, AMeneley D A, Banerjee S 1986 Nucl. Sci. Eng. 92 341
[16]	Arendtsz N V, Hussein E M A 1995 IEEE Trans. Nucl. Sci. 42 2155
[17]	Wang J J, Huang X W, Zhao R 2004 Microelectronics & Computer 21 95 (in Chinese) [王加俊, 黄贤武, 赵然 2004 微电子学与计算机 21 95]
[18]	ArendtszN V, HusseinE M A 1993 SPIE Vol. 2035 Mathematical Methods in Medical Imaging Ⅱ San Diego, CA, July, 1993 p230
[19]	Li S P, Wang L Y, Yan B, Li L, Liu Y J 2012 Chin. Phys. B 21 108703
[20]	Candes E, Tao T 2006 IEEE Trans. Inf. Theory 52 5406
[21]	Candes E, Romberg J, Tao T 2006 IEEE Trans. Inf. Theory 52 489
[22]	Sidky E Y, Pan X 2008 Phys. Med. Biol. 53 4777
[23]	Zhang H M, Wang L Y, Yan B, Li L, Xi X Q, Lu L Z 2013 Chin. Phys. B 22 078701
[24]	Li C B 2009 MS Dissertation (Houston: Rice University)
[25]	Wang Y L, Yang J F, Yin W T, Zhang Y 2008 SIAM J. Imag. Sci. 1 248

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Vol. 63, Issue 1 - 2014-01-05

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