Xuanqin Mou

 

jieshaoXuanqin Mou, PhD, Professor

Director of Institute of Image Processing and Pattern Recognition

Department of Information & Communication Engineering

School of Electronic & Information Engineering

Xi’an Jiaotong University, Shaanxi, 710049

Tel: 8629-82663719  

Email:xqmou@mail.xjtu.edu.cn

 

 

Education:

  • BE, 1984, Dept. of Information & Automatics, Xi’an Jiaotong Univ.
  • MS, 1987, Dept. of Information & Automatics, Xi’an Jiaotong Univ.
  • PhD, 2004, Dept. of Information & Communication Engineering, Xi’an Jiaotong Univ.

 

Employment:

  • From Jul. 2002 to Now, Professor, Institute of Image Processing and Pattern Recognition, School of Electronic & Information Engineering, Xi’an Jiaotong Univ.;
  • From Jul. 1997 to Jun. 2002, Associate Professor, Institute of Image Processing and Pattern Recognition, School of Electronic & Information Engineering, Xi’an Jiaotong Univ.;
  • From Jul. 1990 to Jun. 1997, Lecturer, Institute of Image Processing and Pattern Recognition, School of Electronic & Information Engineering, Xi’an Jiaotong Univ.;
  • From Jun. 1987 to Jul. 1990, Teaching Assistant, Division of Image Processing, School of Electronic & Information Engineering, Xi’an Jiaotong Univ.

 

Teaching:

Lessons for Graduates:

Design of Digital system;

Computer Version.

Lessons for Undergraduates:

Introduction to Human Vision System;

Conspectus on the Information and Telecommunication Engineering—Part of Image Processing.

 

As a Supervisor of PhD and Master Students:

there are 14 PhD students and 60 Master students Graduated from my Group.

 

Research Interests:

Medical Imaging & Processing, Image Quality Assessment, Digital Image Processing.

 

External Funds (As Principal Investigator):

  • The National High Technology Research and Development Program of China (Key 863 Program, 1997-1999, Medical X ray Digital Image Processing System, Grant No: 863-306-06-06, Fee: 1,500,000RMB.
  • The National High Technology Research and Development Program of China (863 Program, 1997-1998, Frame Store with Recursive Filtration, Grant No: 863-306-04-03-07, Fee: 50, 000RMB.
  • The National High Technology Research and Development Program of China (863 Program, 1999-2000), Frame Store with Anti blurring Recursive Filtration, Grant No: 863-306-ZT04-06-5, Fee: 150, 000RMB.
  • Foundation for University Key Teacher by the Ministry of Education (2000-2001), Study on 3D Vessel Reconstruction, Fee:120, 000RMB.
  • The National High Technology Research and Development Program of China (Secondary 863 Program, 2001-2003), Medical X-ray Digital Imaging System with Adaptive Exposure Control Technique, Grant No: 2001AA114152, Fee: 400,000RMB.
  • National Natural Science Foundation of China (2001-2003), 3D Vessel Reconstruction Based on Vessel Branch Model and Rotational X-ray Imaging, Grant No: 30070225, Fee: 160,000RMB.
  • National Natural Science Foundation of China (2005-2007), Medical X ray Optimal Exposure Control based on computing modeling, Grant No: 60472004,Fee: 260, 000RMB.
  • National Natural Science Foundation of China (2006-2008), Projection Data Simulation and Linearity Correction for Polyenergetic XCT, Grant No: 60551003, Fee: 300,000RMB.
  • The Key Foundation by the Ministry of Education (2006-2008), Dual-energy Imaging, Its Physical Model and Characteristic Analysis, Grant No: 106143, Fee: 100,000RMB.
  • Program for New Century Excellent Talents in University (2005), Research on Helgasson Ludwig Consistency and Correction Method of CT Projection Data, Fee: 500, 000RMB.
  • Research Fund for the Doctoral Program of Higher Education of China (2007-2009), Quantitative X-ray CT reconstruction method from one rotational projection, Grant No: 20060698040, Fee: 60,000RMB.
  • National Natural Science Foundation of China (2010-2012), Research on Perceptual Model of Image Quality, Grant No: 90920003, Fee: 500,000RMB.
  • National Natural Science Foundation of China (2012-2015), Grant No: 61172163, Dictionary Learning Based Statistical Reconstruction for CT with Incomplete Projection Data, Fee: 630,000RMB.
  • Research Fund for the Doctoral Program of Higher Education of China (2012-2014), Dictionary Learning Based CT Reconstruction for Incomplete Projections, Grant No: 20110201110011, Fee: 120,000RMB

 

Corporative Projects (recent 5 years) (As Principal Investigator): 

  • DSA System, 480,000RMB.
  • PACS in Medical X ray Imaging, 196,000RMB.
  • Imposter prevention for face recognition proposal, 10, 000USD.
  • Intelligence net camera, 400,000RMB.
  • Digital Video Surveillance for Power System, 860,000RMB.

 

Academic Awards and Honors:

  • RA3900  = 2 * ROMAN II DSA System. The Second-class Award for Invention by the Ministry of Education of China in 1999. As Principal Investigator.
  • Industrial Visual Inspection System, The second-class Awards from the Government of Shaanxi Province, China, in 1991, As a co-investigator (rank 4).
  • Cum Laude Poster Award, SPIE MI 2006, Awarded paper: Tao Luo, Xuanqin Mou, “An Applicability Research on JND Model”.
  • Honorable Mention Poster Award, SPIE MI 2011, Awarded paper: Qiong Xu, Hengyong Yu, Xuanqin Mou, Ge Wang, “Interior tomography from low-count local projections and associated Hilbert transform data”.
  • Ronghong Award for Education in Science and Technology
  • Wang KuanCheng Award for Education
  • Guoweiwu Award for Outstanding Young Faculty In Science and Technology of Xi’an Jiaotong University

 

Activities:

  • Evaluate Expert of the National Natural Science Foundation of China
  • Member of the Standing Committee of China Society of Image and Graphics
  • Vice president of the Shaanxi Society of Image and Graphics
  • As Reviewer for the Journals:
  • Medical Physics
  • Physics in Medicine and Biology
  • 中国科学
  • 自然科学进展
  • 电子学报
  • 电子与信息学报
  • 软件学报

 

Patents (As Principal Investigator):

  • Beam Hardening Effect Correction Method Based on Helgasson Ludwig Consistency, Application No. ZL200610041868.1
  • Medical CCD Camera and its Automatic Exposure Control Method of Medical X-ray Machine, Application No. ZL200610041869.6
  • Method of Print Ready and Display Ready Transform Based on Scale Space Decomposition and Composition, Application No. ZL200610041726.5
  • Method of Contrast Image Reconstruction of Super Dynamic Based on Scale Space Decomposition for X-ray Radiology, Application No. 200810017402.7
  • A Digital Medical X-ray CCD Camera for Fluoroscopy, Application No. 200810017593.7
  • A Full Reference Image Quality Assessment Method Based on the Statistic of Edge Differences, Application No. 200910021014.0
  • A Reduced Reference Image Quality Assessment Method Based on Early Vision, Application No. 200910021011.7

 

Selected Journal Papers:

  • Q. Xu, X. Mou, G. Wang, Jered Sieren, Eric A Hoffman, and Hengyong Yu, “Statistical Interior Tomography,” IEEE Transactions on Medical Imaging, 30(5), pp: 1116-1128, 2011.
  • Min Zhang, Xuanqin Mou and Lei Zhang, “Non-Shift Edge based Ratio (NSER): An Image Quality Assessment Metric Based on Early Vision Features”, IEEE Signal Processing Letter, 18(5), May, 2011,pp.315-318.
  • Shaojie Tang, Xuanqin Mou, Qiong Xu, Yanbo Zhang, James Bennett and Hengyong Yu, “Data Consistency condition-based beam-hardening correction”, Optical Engineering, 50(7), 076501(1-13), July, 2011.
  • Li HH, Mou XQ, Ji Z, et al. Miniature RFID tri-band CPW-fed antenna optimised using ISPO algorithm, Electronics Letters, 47(3):161~162, 2011.
  • Shaojie Tang, Xuanqin Mou, Junfeng Wu, Hao Yan and Hengyong Yu, “CT Gradient Image Reconstruction Directly from Projections”, Journal of X-Ray Science and Technology, Vol. 19, No. 2, pp. 173-198, 2011.
  • L. Zhang, L. Zhang, X. Mou, and D. Zhang, “FSIM: a feature similarity index for image quality assessment,” IEEE Trans. Image Processing, vol. 20, pp. 2378-2386, 2011.
  • Yan H, Mou XQ, Tang SJ et al. Projection correlation based view interpolation for cone beam CT: primary fluence restoration in scatter measurement with moving beam stop array, Phys. Med. Biol. 2010, 55: 6353~6375.
  • Xuanqin Mou, Xi Chen, Lijun Sun, Hengyong Yu, Zhen Ji and Lei Zhang, “The impact of calibration phantom errors on dual-energy digital mammography,” Phys. Med. Biol. 53 pp6321-6336, 2008.
  • Shaojie Tang, Xuanqin Mou, et al, “Application of projection simulation based on physical imaging model to the evaluation of beam hardening corrections in X-ray transmission tomography”, Journal of X-Ray Science and Technology. 16 pp 95-117, 2008.
  • Shaojie Tang, Hengyong Yu, Hao Yan, Deepak Bharkhada and Xuanqin Mou. X-ray projection simulation based on physical imaging model. Journal of X-Ray Science and Technology. 14(3) Pages: 177 – 189, 2006.
  • Li Shujun, Alvarez G., Chen Guangrong, Mou Xuanqin, Breaking a chaos-noise-based secure communication scheme, CHAOS 15 (1): Art. No. 013703 MAR 2005.
  • YU Hengyong, MOU Xuanqin, CAI Yuanlong, ”Calibration of cone beam rotational X-ray image sequence”, Chinese Journal of Electronics, 13 (3), Jul., 2004, pp.424-428.
  • Li Shujun, Chen Guangrong, Mou Xuanqin, On the security of the Yi-Tan-Siew chaotic cipher, IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS, Vol.51, No.12, 2004, pp.665-669.
  • Li Shujun, Chen Guangrong, Wong KW, Mou Xuanqin, Cai Yuanlong, Baptista-type chaotic cryptosystems: problems and countermeasures, PHYSICS LETTERS A 332 (5-6): 368-375 NOV 22 2004.
  • YU Hengyong, MOU Xuanqin, CAI Yuanlong, “Modified Support Theorem and its Application in Estimation of Vessel Cross-sectional Shape”, Chinese Journal of Electronics, 2003.4, 12(2):197-199.
  • Shujun Li, Xuanqin Mou, Boliya L. Yang, Zhen Ji and Jihong Zhang, Problems with a Probabilistic Encryption Scheme based on Chaotic Systems, International Journal of Bifurcation and Chaos, 2003,13 (10), 3063-3077.
  • Shujun Li, Xuanqin Mou, Yuanlong Cai, Zhen Ji and Jihong Zhang, On the security of a chaotic encryption scheme: problems with computerized chaos in finite computing precision, Computer Physics Communications, 2003.1, 153(1): 52-58.
  • Shujun Li, Xuanqin Mou, Zhen Ji, Jihong Zhang and Yuanlong Cai, Performance analysis of Jakimoski-Kocarev attack on a class of chaotic cryptosystems, Physics Letters A, 2003.1, 307(1): 22-28.
  • Li Shujun, Mou Xuanqin and Cai Yuanlong: Improving Security of a Chaotic Encryption Approach, Physics Letters A, 2001.11,290(3-4): 127-133.
  • 杨莹,牟轩沁,余厚军.基于模型的钨靶X射线球管光谱重建。电子学报,38(10),2010.
  • 储颖,唐超伦,纪震,牟轩沁,陈思平,基于直方图信息和灰度偏移网格的数字减营图像灰度矫正算法,电子学报,34(1),2006:159-162.
  • 洪伟, 牟轩沁. 蔡元龙, 基于多分辨投影匹配和对应点分析的三维血管轴重建,电子学报,33(10),2005,pp.1901—1904.
  • 俞恒永,牟轩沁,汤少杰,蔡元龙,基于先验信息的二值血管锥束迭代重建,电子学报,2004,32(4), 575-579.
  • 秦中元, 牟轩沁, 王平, 蔡元龙, 一种内存优化的代数重建算法及其快速实现,电子学报,2003,31(9), 1327~1329.
  • 俞恒永,牟轩沁,蔡元龙。基于方向信息测度约束的自适应血管跟踪方法,2002.5, 电子学报, 30(5):643-646.
  • 纪震,牟轩沁,蔡元龙,蒋大宗, 基于SD2PCM的数字减影图象序列无损压缩算法, 中国生物医学工程学报, 2002年01期, pp. 69-73.
  • 王平,牟轩沁,蔡元龙,人体血管系的迭代仿真方法,电子与信息学报,25(2):224-228,2003.
  • 李树钧,牟轩沁,纪震,张基宏,一类混沌流密码的分析,电子与信息学报,2003.4, 25(4), 473-478.
  • 林宇宁, 高凯, 邓振生, 牟轩沁, 余厚军, 张学昕, 孙立军, X线管电压对图像质量和放射剂量影响的研究, 中国临床医学影像杂志 17(9) 530-533.
  • 赫英辉, 韩月东, 高凯, 邓振生, 余厚军, 牟轩沁, 等, 最佳kVp与体模表面剂量和体模厚度关系的实验研究, 中华放射医学与防护杂志 26(3)275-277.

Selected Conference Papers:

  • Chao Wang, Xuanqin Mou and Lei Zhang, “Block-layer optimal bit allocation based on constant perceptual quality”, Proc. SPIE Visual Information Processing and Communication III (8305), 2012. (Oral presentation)
  • Yuting Chen, Wufeng Xue, Xuanqin Mou, “Reduced-reference image quality assessment based on statistics of edge patterns,” Proc. SPIE Digital Photography VIII (8299), 2012. (Oral presentation)
  • Xuanqin Mou, Wufeng Xue and Lei Zhang, “Reduced Refference Image Quality Assessment via Sub-image Similarity Based Redundancy Measurement,” Proc. SPIE Human Vision and Electronic Imaging XVII (8291), 2012.
  • Qiong Xu, Hengyong Yu, Xuanqin Mou, Ge Wang, “Interior tomography from low-count local projections and associated Hilbert transform data”, Proc. SPIE on Medical Imaging, 7961-108, 2011, (Honorable Mention Poster Award).
  • Xuanqin Mou, Min Zhang, Wufeng Xue, Lei Zhang, Image quality assessment based on edge, Proc. SPIE 7876, 78760N(2011), California, pp.1-9. (Oral presentation)
  • Min Zhang, Wufeng Xue, Xuanqin Mou, Reduced reference image quality assessment based on statistics of edge, Proc. SPIE 7876, 187611(2011), California, pp.1-10.
  • Wufeng Xue, Xuanqin Mou, An Image Quality Assessment Metric Based on Non-shift Edge, Image Processing (ICIP), 2011 18th IEEE International Conference on, Brussels.
  • Tao Luo, Chao Wang, Xuanqin Mou, Content-based Image Quality Assessment of Natural Scene Image Distorted by Quantization, IEEE 2011 Visual Communication and Image Processing Conference (VCIP 2011), Taiwan.
  • Qiong Xu, Hengyong Yu, Xuanqin Mou, Ge Wang, “Dictionary Learning Based Low-dose X-ray CT Reconstruction”, Proceedings of 11th Fully 3D international meeting and 3nd HPIR workshop, Fully 3D 2011. (Oral presentation)
  • Junfeng Wu, Xuanqin Mou and Yanbo Zhang, “A Fast Iterative Soft-Thresholding Algorithm for Few-View CT Reconstruction”, Proceedings of 11th Fully 3D international meeting and 3nd HPIR workshop, Fully 3D 2011. (Oral presentation)
  • Hao Yan, Xuanqin Mou, Yanbo Zhang, Maria Zankl, “Single-scan measurement based scatter correction in CBCT by using a static ring-shaped beam stop array (BSA) and projection correlation based view interpolation (PC-VI)”, Proceedings of 11th Fully 3D international meeting and 3nd HPIR workshop, Fully 3D 2011.
  • Yanbo Zhang, Xuanqin Mou, Shaojie Tang, Beam Hardening Correction for Fan-Beam CT Imaging with Multiple Materials, IEEE Medical Imaging Conference (NSS/MIC), California, 2010.
  • Qiong Xu, Hengyong Yu, Xuanqin Mou, Ge Wang. Statistical interior tomography. Proc. SPIE, Vol. 7804, 78041l (2010).
  • Wufeng, X. and M. Xuanqin. Reduced reference image quality assessment based on Weibull statistics. in Quality of Multimedia Experience (QoMEX), IEEE Second International Workshop on. 2010,p.1-6.
  • Chao Wang and Xuanqin Mou. A New Edge-based Complexity Measure for Intra-rate Estimation in H.264/AVC. IEEE ICSP2010, Beijing, 2010. (Oral presentation)
  • Tao Luo and Xuanqin Mou. Divisive normalization in channelized Hotelling observer. Proc. SPIE, Vol. 7527, 75271K (2010).
  • Hao Yan, Xuanqin Mou, Shaojie Tang, and Qiong Xu, Improved Scatter Correction in X-ray Cone Beam CT with Moving Beam Stop Array Using John’s Equation, Proceedings of 10th International Meeting of Fully Tree-Dimensional Image Reconstruction in Radiology and Nuclear Medicine (Fully 3D 2009, Beijing), pp. 98-101. (Oral presentation)
  • Shaojie Tang, Xuanqin Mou, Qiong Xu, Hao Yan, Junfeng Wu, Yanbo Zhang, Hengyong Yu, Noise Reduction by Projection Direction Dependent Diffusion for Low Dose X-Ray Cone Beam Computed Tomography, Proceedings of 10th International Meeting of Fully Tree-Dimensional Image Reconstruction in Radiology and Nuclear Medicine (Fully 3D 2009, Beijing), pp. 381-384.
  • Qiong Xu, Xuanqin Mou, et al., Implementation of penalized-likelihood statistical reconstruction for polychromatic dual-energy CT, Proceedings of Medical Imaging 2009: Physics of Medical Imaging. SPIE.
  • Min Zhang, Xuanqin Mou, A psychovisual image Quality Metric based on multi-scale Structure Similarity, Image Processing, ICIP 2008, pp381 – 384, Oct. 2008.
  • Xuanqin Mou, Min Zhang, Nonlinear multi-scale contrast enhancement for chest radiograph, Image Processing, 2008. ICIP 2008, pp3184 – 3187, Oct. 2008.
  • Chen X., Mou X., Zhang L, Indicator and calibration material for microcalcification in dual-energy mammography, Proceedings of the 1st International Conference on Medical Biometrics (ICMB 2008, Hong Kong) LNCS 4901 pp265-272, 2008.
  • Xuanqin Mou, Shaojie Tang, Tao luo, Yizhai Zhang, Beam hardening correction based on HL consistence in polychromatic transmission tomography, Proceedings of Medical Imaging 2008: Physics of Medical Imaging. SPIE 6913, 2008.
  • Mou X Q and Chen X., Error analysis of calibration materials on dual-energy mammography, Proc. of the 10th Int. Conf. on Medical Image Computing and Computer Assisted (MICCAI2007, Brisbane, Australia). LNCS 4792 pp596-603, 2007.
  • Xuanqin Mou, Shaojie Tang, Hengyong Yu. A Beam Hardening Correction Method Based on HL Consistency. SPIE 6318, 63181U, 2006.
  • Tao Luo, Xuanqin Mou, Shaojie Tang, and Ying Yang, An applicability research on JND model.Proc. SPIE 6146, 614610 (2006). (Cum Laude Poster Award)
  • Yang, Y; Mou, XQ; Chen, X, A robust X-ray tube spectra measuring method by attenuation data, Medical Imaging 2006: Physics of Medical Imaging, SPIE, Pts 1-3, Vol. 6142, Pages: K1423-K1423.