中文
Published date:2014-03-14    Provided by:物理系
  Personal Information

Title: Professor  
Position :  Dean
Tel: 86-10-51688313
E-mail:  qbfeng@bjtu.edu.cn
Present Address:

School of Science, BeijingJiaotongUniversity,

No 3. Shangyuancun, Haidian District, Beijing, P.R.China, 100044
  Education

02/1990-03/1993

Tsinghua University, Beijing, P. R.  China

Ph.D. in Optical Engineering

09/1983-03/1986

Hefei University of Technology,  Hefei, Anhui Province, P.R. China

 M.S. in Precision Machinery Instruments.

09/1979-07/1983

Hefei University of Technology,  Hefei, Anhui Province, P.R. China

B.S.in Measurement and Instrumentation

  Academic Appointments

 

10/2000-Present

Professor

School of Science, Beijing Jiaotong University, Beijing 100044,  P.R.China

03/1995-0/2000

Associate Professor

School of Science, Beijing Jiaotong University, Beijing 100044,  P.R.China

10/1998-10/1999

Visiting Professor

University of North Carolina at Charlotte, U.S.A

03/1993-10/1995

Lecturer

School of Science, Beijing Jiaotong University, Beijing 100044,  P.R.China

04/1986-10/1990

Teaching Assistant

Dept. of precision instruments, Hefei University of Technology, Hefei  P.R.China

  Research Interests

 1.    Optical Measurement and its Applications in Industry

 2.    Measurement  & Testing Technology for Railway Safety

 3.    Measurement instrumentation.

  Funding

      The 2nd High-level Forum of Young and Middle-aged Scholars on Theory and Fundamental Techniques of Modern Mechanical Measurement, 2013-2013,NSFC

      Research of on-line measurement of wheelset geometric parameters and the dynamic error compensation, 2013-2016, NSFC

      The development of measuring of errors of laser six degrees of freedom simultaneously, 2011-2013, NSFC

      Research on Detection and Strengthen for Bridge and Subgrade of Heavy Load Railway, 2010-2012, the National High Technology Research and Development Program (“863” Program) of China

      Research of omnibearing and real-time monitoring technology of settlement of passenger transport line, 2007-2009, the National High Technology Research and Development Program (“863” Program) of China

      Key technology research and demonstration project of lifeline engineering security assurance, 2006-2008, Projects in the National Science & Technology Pillar Program

      Research of measurement method of laser multi degree of freedom error based on common-path light drift compensation of research simultaneously, 2007-2009, NSFC

  Major Publications

1. Feng Qibo, Zhang Bin, Cui Cunxing, et al. Development of a simple system for simultaneously measuring 6DOF geometric motion errors of a linear guide. Optics Express, 21(22):25805-25819

2. Yan Gao, Qibo Feng, Jianying Cui. A simple method for dynamically measuring the diameters of train wheels using a one-dimensional laser displacement transducer. Optics and Lasers in Engineering, 53:158-163

3. Yang, J ; Feng, QB. A new method for measuring subgrade settlement in high-speed railway by using a linear CCD. Measurement, 46(5):1751-1756

4. Wu, SJ ; Zhu, LQ ; Feng, QB ; Yang, LX. Digital shearography with in situ phase shift calibration. Optics & Laser in Engineering, 50(9):1260-1266

5. Zhai, YS; Feng, QB; Zhang, B. A simple roll measurement method based on a rectangular-prism. Optics & Laser Technology, 44(4): 839-843

6. Gao, Z ; Deng, Y; Duan, YT  ; Zhang, ZF ; Wei, C; Chen, SQ ; Cui, JY; Feng, QB. Continual in-plane displacement measurement with temporal wavelet transform speckle pattern interferometry. Review of Scientific Instruments, 83(1):015107

7. Ren SW;Gu SP;Xu GY;Gao Z;Feng QB. A new track inspection car based on a laser camera system. Chinese Optics Letters, 9(3):031202

8. You FL, Zhang B, Feng QB. A novel laser straightness measurement method with beam bend compensation. Optik, 122(17):1530-1534

9. Zheng M, Feng QB,Gao Z; Shao SY. Experiments and analyses of a new type optical system for computed radiography. Chinese Optics Letters, 8(8): 800-803

10.Chen,ZM ; Xie,F ; Li, M; Feng, QB. Dynamic displacement measurements with a stabilized fiber Michelson interferometer based on quadrature-phase-tracking technique. Optical Engineering, 49(7):079-801

11. Xie, F;Ren,JY;Chen,ZM;Feng, QB. Vibration-displacement measurements with a highly stabilised optical fiber Michelson interferometer system. Optics & Laser Technology, 42(1): 208-213

12. Gao,Z;Feng, QB;Wu,SJ; Cheng, F; Cui,JY;Chen,SQ; Jia,SQ; Liu, JJ. Track irregularity inspection trolley based on fiber-optic gyro. Journal of Micro-Nanolithography Mems and Moems. 9(1):013-045

13. Chen,BY;Zhang,EZ; Yah,LP; Li, CR;Tang, WH; Feng, QB. A laser interferometer for measuring straightness and its position based on heterodyne interferometry. Review of Scientific Instruments, 80(11):115113

14.Xie,F;Chen,ZM; Ren,JY; Feng,QB. Vibration-displacement measurements based on the phase tracking of an optical fiber Michelson interferometer. Optical Engineering,48(4): 043608

15. Ding JY, Feng QB,Zhang LQ. Laser frequency splitting method for high-resolution determination of relative stress-optic coefficient and internal stresses in Nd:YAG crystals. Applied Optics, 47(30):5631-5636

16. Feng QB; Zhang B; Kuang CF. Four degree-of-freedom geometric error measurement system with common-path compensation for laser beam drift. International J. of Precision Engineering & Manufacturing, 9(4):26-31

17. Zhang, Z;Feng, Q; Gao, Z;Kuang, C. A new laser displacement sensor based on triangulation for gauge real-time measurement. Optic & laser technology, 40(1): 252-255

18. Kuang CF; Hong E; Feng QB. A novel method to enhance the sensitivity for two-degrees-of-freedom straightness measurement.

Measurement Science & Technology, 18(12):3795-3800

19. Kuang CF; Hong E; Feng QB. High-accuracy method for measuring two-dimensional angles of a linear guideway. Optical Engineering, 46(5):051016

20. Kuang CF; Feng QB; Zhang B. A four-degree-of-freedom laser measurement system (FDMS) using a single-mode fiber-coupled laser module. Sensor & Actuators A- Physical., 125(1):100-108

21. Feng QB; Zhang B; Kuang CF. A straightness measurement system using a single-mode fiber-coupled laser module. Optics & Laser Technology, 36(4):278-283

Awards & Honors

1. Outstanding teacher in Beijing,2013.

2. The first prize of science and technology progress of Ministry of education, 2012.


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