Personal Information:
| Name: | Zheng Shubin |
| Sex: | Male |
| Position: | Associate Professor |
| School: | School of Urban Railway Transportation |
| Degree: | (1) Ph.D in Railway Vehicle Operation Engineering, Dec. 2007, (Doctoral Degree Candidate of Master-doctor Combined Program), State Key Laboratory of Traction Power, Southwest Jiaotong University, Chengdu, China
(2) B.S. in Mechanical engineering and Automation, Jun. 2002, School of Mechanical Engineering, Southwest Jiaotong University, Chengdu, China |
| Discipline: | Railway Transportation Engineering |
| Phone: | +86-21-67874117 |
| Fax: | +86-21-67791163 |
| Email: | zhengshubin@126.com |
| Address: | Shanghai University of Engineering Science, 333 Longteng Road, Songjiang District,Shanghai 201620,China |
Zheng Shubin, male, Ph.D, awarded from Southwest Jiaotong University. Associate Professor, School of Urban Railway Transportation, Shanghai University of Engineering Science. +86-21-67874117, zhengshubin@126.com.
Research Fields
(1) Railway track inspection technology
(2) Track structural health diagnosis utilizing vehicle vibration signals
(3) Railway rolling-stock condition monitoring technology
(4) Vibration signal processing and Computer vision technology
Research Achievements
(1) RESEARCH EXPERIENCE
• Jan., 2015-Dec., 2017, (PI), Continuous Moving Measurement Theory and Methode for Railway Track Settlement. National Natural Science Foundation (GrantNo. 51405287)
• Jul., 2013—Jun., 2015, (PI), Railway Track Inspection Key Technologies Based on Multi-sensor Data Fusion. “Key Technology R&D Program” Projectsupported by theShanghaiCommitteeofScience and Technology (GrantNo. 13510501300)
• Jul., 2012-- Jun., 2015, (PI), Railway Track Alignment Measurement Method under Continuous Moving Condition. “Natural Science Fund” Project supported by theShanghaiCommitteeofScience and Technology (GrantNo. 12ZR1412300)
• Jan., 2012—Dec., 2014, (PI), Rail Wear Measurement Method Based on Image Feature. “Research Innovation Program” Project supported by Shanghai Municipal EducationCommission (GrantNo. 12ZR1412300)
• Jan., 2009--Dec., 2011, (PI), Railway Track irregularities Inspection Method Based on Image Processing. “Research Award Fund for Outstanding Young Teachers in Higher Education Institutions” Project supported by Shanghai Municipal EducationCommission (GrantNo. gjd08050)
• Jul., 2008--Dec., 2010, (PI), Measuring Data Processing Method for High-speed Maglev Track Alignment. “National Key Technology R&D Program for 11th Five-Year Plan” supported by Ministry of Science and Technology (GrantNo. 2007BAG020, sub-project (115-XL-012))
• Jan., 2009--Dec., 2011, (CO-PI), Railway Track Inspection Method and Technologies Based on Computer vision. “Key Technology R&D Program” Projectsupported by theShanghaiCommitteeofScience and Technology (GrantNo. 08220511000)
• Jan., 2010--Apr., 2013, (CO-PI), Design and Development of Urban Railway Transportation Operation Simulation System. “Technological Development Program” supported by Shanghai Shentong Metro Group (GrantNo. JS-KY10R051-2)
(2) PUBLICATIONS and PRESENTATIONS
ØShubin ZHENG, Xiaodong CHAI, Xiaoxue An, Liming Li. Rail Wear Measuring Method Based on Dynamic Template[J]. China Railway Science, 2013, 34(2):7-12. (in Chinese)
ØShubin Zheng, Xiaodong Chai, Xiaoxue An, Liming Li. Railway Track Gauge Inspection Method Based on Computer Vision[C]. Proceedings of 2012 IEEE International Conference on Mechatronics and Automation: 1292-1296. ICMA, 2012.
ØShubin ZHENG, Xiaodong CHAI, Guoge Han, Liming Li. Track Inspection Method Based on Image Processing[J]. Urban Mass Transit, 2010, 13(9):73-76. (in Chinese)
ØShubin ZHENG, Xiaodong CHAI, Guoge Han, Liming Li. On Track Gauge Measurement Based on Light Plane[J]. Urban Mass Transit, 2010,13(10):22-25. (in Chinese)
ØShubin ZHENG, Xiaodong CHAI, Liming LI. Design of Gauge Inspection System Based on Computer Vision[J]. Electric Drive For Locomotives, 2010, (6):70-74. (in Chinese)
ØXiaodong Chai, Shubin Zheng, Wenfa Zhu. Detection for Rail Route State Deformation Based on Trap-Down Inertial Technology[J]. Applied Mechanics and Materials, 2013, 459:136-143.
ØXiaodong Chai, Shubin Zheng, Xiaoxue An, etal. Rail Wear Measurement Method Based on Machine Vision. 2013 IEEE International Conference on Mechatronic Sciences, Electric Engineering and Computer. 2013, 10:469-474.
ØWenfa Zhu, Xiaodong Chai, Shubin Zheng, Liming Li. Developing IMU Signal Acquisition and Processing System Based on LabVIEW[J]. Computer Measurement & Control, 2012, 20(6): 1697-1698. (in Chinese)
ØWenfa Zhu, Xiaodong Chai, Shubin Zheng, Liming Li. Obtaining Displacement Information Based on Integration Filter[J]. Instrument Technique and Sensor. 2012, (5):62-64. (in Chinese)
ØWenfa Zhu, Xiaodong Chai, Shubin Zheng, Liming Li. Detection of Track Long-wave Irregularity Based on SINS[J]. Urban Mass Transit, 2012, 15(11):87-90. (in Chinese)
ØShubin Zheng, Jianhui Lin, Guobin Lin. Denoising of Maglev Gap Signal Based on Lifting Scheme Wavelet[J]. Computer Measurement & Control, 2008, 16(5): 711-714. (in Chinese)
ØShubin Zheng, Jianhui Lin, Guobin Lin. Design of track long wave irregularity inspection system for high-speed maglev[J]. Chinese Journal of Scientific Instrument, 2007, 28(10): 1781-1786. (in Chinese)
ØShubin Zheng, Jianhui Lin, Guobin Lin. Variable Linear Phase IIR Filter for Extraction of Track Inspection Signals[J]. Journal of Southwest Jiaotong University, 2007, 42(2): 211-216. (in Chinese)
ØShubin Zheng, Jianhui Lin, Guobin Lin. Implementation of Detecting Maglev Track Long Wave Irregularity Based on Inertial Measurement Principle[J]. Journal of Electronic Measurement and Instrument, 2007, 21(2): 61-65. (in Chinese)
ØShubin Zheng, Jianhui Lin, Guobin Lin. Second Generation Wavelet-based Denoising Technique for Track Inspection Signal. The IEEE Proceedings of 8th International Conference on Electronic Measurement and Instruments, ICEMI’2007. 2007: 833-837.
ØShubin Zheng, Jianhui Lin, Guobin Lin. Long-wave Irregularity Detection of High-speed Maglev Track. The IEEE Proceedings of 8th International Conference on Electronic Measurement and Instruments, ICEMI’2007. 2007: 277-281.