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基本情况

姓  名:

冯其波

职  务:

职  称:

教授

学  历:

研究生

学  位:

博士

通信地址:

北京市海淀区西直门外上园村3号

邮  编:

100044

办公电话:

86-10-51685558

电子邮箱:

qbfeng@bjtu.edu.cn

教育背景

1979.09~1983.07,合肥工业大学精密仪器系,获得工学学士学位;

1983.07~1986.04,合肥工业大学精密仪器系,获得工学硕士学位;

1990.02~1993.03,清华大学精密仪器及机械学系,获得光学仪器工学博士学位;

1998.10~1999.10,在University of North Carolina at Charlotte留学访问1年。

工作经历

教学科研:

      1986.04~1990.02 合肥工业大学精密仪器系助教;

      1993.03~1995.10 北方交通大学 讲师;

      1995.10~2000.10 北方交通大学 副教授;

      2000.10~现在 北京交通大学教授、博士生导师、3级教授、2级教授。

管理经历

2001.06~2005.05 理学院 副院长;

2005.5~2017.12  理学院 院长;

2008年~现在 光学工程责任教授。

研究方向

  • 光电检测与光电传感
  • 光学工程(专业学位)
  • 光电检测与信息处理

招生专业

  • 光学工程硕士
  • 光学工程博士
  • 物理学硕士

科研项目

主持的纵向项目(50万以上)

  1. 国家重大科研仪器研制项目:面向五轴数控机床的激光高精度多参数快速综合测量仪研制与应用,2016.1-2020.12,845万.
  2. 国家自然科学基金“面上”:轮对几何参数在线测量方法与动态误差补偿的研究,2013.1-2016.12,80万.
  3. 国家自然科学基金“重点”:激光六自由度误差同时测量仪的研制,2011.1-2013.12,180万.
  4. 863项目:重载铁路桥梁和路基检测与强化技术-重载铁路路基静动力性能检测、连续检测、实时监测与状态评估技术研究,2009-2011,100万.
  5. 863项目:客运专线路基沉降全方位实时监测技术的研究,2007.12-2009.12,100万.

主持的主要横向项目 (50万元以上)

  1. 列车轮对智能检测及全寿命周期管理系统研发与产业化获东莞市第三批创新科研团队支持,总经费4000万,其中政府支持1000万.
  2. 北京交通大学:轨道交通检测仪器与设备研制,2016-2020,180万.
  3. 北京交通大学:声屏障检测技术,2014.7-2015.12,60万.
  4. 北京交通大学:机车轮对几何参数动态在线测量系统 ,2013.10--2014.6,100万.
  5. 北京交大创新科技中心:轨检车用专用激光线光源3,2011.12--2012.3.64万.
  6. 北京交大科技发展中心:非接触式静态轨道几何状态检测小车,2005.10-2006.02,96万.
     
      

教学工作

  1. 开设《光电检测技术》等本科生主干课程和《光学测量》博士生学位课,曾被学生评为最受欢迎的教师;
  2. 《大学物理实验》国家级精品资源共享课负责人;
  3. 共招收博士研究生27名,其中17名毕业获得博士学位;共招收59名硕士研究生,其中53毕业获得硕士学位;近四年共指导优秀本科生22名,大部分学生到清华、北大等著名高校攻读博士学位;
  4. 2013年被评为北京市优秀教师。

论文/期刊

SCI检索期刊论文

 
  1. Zhihong Gao, Qibo Feng*, Wenxi Zhang, Xinxin Kong, Boxia Yan, Yan Qi, Zhou Wu, Yang Li. Single longitudinal mode operation in diode-end-pumped wedge Nd:YVO4 laser[J], Optics Communications 424 (2018) 131–136.

  2. Chuanchen Bao , Jiakun Li, Qibo Feng and Bin Zhang. Error-compensation model for simultaneous measurement of fve degrees of freedom motion errors of a rotary axis [J], Measurement Science and Technology, 29 (2018) 075004 (10pp).

  3. Li, Jiakun; Feng, Qibo*; Bao, Chuanchen; Zhao, Yuqiong. Method for simultaneous measurement of five DOF motion errors of a rotary axis using a single-mode fiber-coupled laser[J], Optics Express, 2018,26(3): 2535-2545.

  4. Guang Chen, Qibo Feng, Keqin Ding, and Zhan Gao. Subpixel displacement measurement method based on the combination of particle swarm optimization and gradient algorithm. Optical Engineering, 2017, 56(10): 104101.

  5. Yuqiong Zhao, Bin Zhang, and Qibo Feng. Measurement system and model for simultaneously measuring 6DOF geometric errors. Optics Express, 2017, 25(18): 20993-21007.

  6. Guang Chen, Qibo Feng, and Keqin Ding. Methods and Systems for High-temperature Strain Measurement of the Main Steam Pipe of a Boiler of a Power Plant While in Service. Journal of the Optical Society of Korea, 2016, 20(6): 770-777.

  7. Bin Zhang, Qibo Feng, and Yunfeng Liang. Interferometer with bismuth silicon oxide crystal for vibration measurement. Optical Engineering, 2016, 55(9): 091406.

  8. Yuqiong Zhao, Qibo Feng*, Bin Zhang, and Cunxing Cui. Influence of beam radii on a common-path compensation method for laser beam drifts in laser collimation systems. Measurement Science and Technology, 2016, 27(8): 084013.

  9. Xiaojing Gao, Bin Zhang, Qibo Feng, Xin Xie, and Lianxiang Yang. Nano-vibration measurements using the photoelectromotive force effect in the GaAs crystal. Instruments and Experimental Techniques, 2016, 59(3): 470-475.

  10. Cunxing Cui, Qibo Feng*, Bin Zhang, and Yuqiong Zhao. System for simultaneously measuring 6DOF geometric motion errors using a polarization maintaining fiber-coupled dual-frequency laser. Optics Express, 2016, 24(6): 6735-6748.

  11. Jing Wang, Qibo Feng*. Residual stress determination of rail tread using a laser ultrasonic technique. Laser Physics, 2015, 25(5): 056104.

  12. Cunxing Cui, Qibo Feng*, and Bin Zhang. Compensation for straightness measurement systematic errors in six degree-of-freedom motion error simultaneous measurement system. Applied Optics, 2015, 54(11): 3122-3131.

  13. Jing Wang, Qibo Feng*. Converging ultrasonic shear-vertical waves generated by a double-line laser and its application for surface defect detection. Japanese Journal of Applied Physics, 2015, 54(4): 046602.

  14. Yong Lv, Qibo Feng*, Lishuang Liu, Qingrui Yi, and Yueqiang Li. Application of optical switch in precision measurement system based on multi-collimated beams. Measurement, 2015, 61:216-220.

  15. Shuai Gao, Bin Zhang, Qibo Feng, Cunxing Cui, Shiqian Chen, and Yuqiong Zhao. Errors crosstalk analysis and compensation in the simultaneous measuring system for five-degree-of-freedom geometric error. Applied Optics, 2015, 54(3): 458-466.

  16. Yusheng Zhai, Zhifeng Zhang, Yuling Su, Xinjie Wang, and Qibo Feng. A high-precision roll angle measurement method. Optik, 2015, 126(24): 4837-4840.

  17. Tong Zhang, Qibo Feng*, Cunxing Cui, and Bin Zhang. Research on error compensation method for dual-beam measurement of roll angle based on rhombic prism. Chinese Optics Letter, 2014, 12(7): 071201.

  18. Shengjia Wang, Zhan Gao, Guangyu Li, Ziang Feng, and Qibo Feng. Continual mechanical vibration trajectory tracking based on electro-optical heterodyne interferometry. Optics Express, 2014, 22(7): 7799-7810.

  19. Yan Gao, Qibo Feng*, and 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, 2014, 53: 158-163.

  20. Qibo Feng*, Bin Zhang, Cunxing Cui, Cuifang Kuang, Yusheng Zhai, and Fengling You. Development of a simple system for simultaneously measuring 6DOF geometric motion errors of a linear guide. Optics Express, 2013, 21(22): 25805-25819.

  21. Jing Yang, Qibo Feng*. A new method for measuring subgrade settlement in high-speed railway by using a linear CCD. Measurement, 2013, 46(5): 1751-1756.

  22. Sijin Wu, Lianqing Zhu, Qibo Feng, and Lianxiang Yang. Digital shearography with in situ phase shift calibration. Optics and Lasers in Engineering, 2012, 50(9): 1260-1266.

  23. Yusheng Zhai, Qibo Feng*, and Bin Zhang. A simple roll measurement method based on a rectangular-prism. Optics and Laser Technology, 2012, 44(4): 839-843.

  24. Zhan Gao, Yan Deng, Yiting Duan, Zhifeng Zhang, Cheng WeiShiqian Chen, Jianying Cui, and Qibo Feng. Continual in-plane displacement measurement with temporal wavelet transform speckle pattern interferometry. Review of Scientific Instruments, 2012, 83(1): 015107.

  25. Shengwei Ren, Shiping Gu, Guiyang Xu, Zhan Gao, and Qibo Feng*. A new track inspection car based on a laser camera system. Chinese Optics Letters, 2011, 9(3): 031202.

  26. Fengling You, Bin Zhang, and Qibo Feng. A novel laser straightness measurement method with beam bend compensation. Optik, 2011, 122(17): 1530-1534.

  27. Meng Zheng, Qibo Feng*, Zhan Gao, Shuangyun Shao Keqin Ding. Experiments and analyses of a new type optical system for computed radiography. Chinese Optics Letters, 2010, 8(8): 800-803.

  28. Zhan Gao, Qibo Feng, Sijin Wu, Fei Cheng, Jianying Cui, Shiqian Chen, Shiqing Jia, and Jianjun Liu. Track irregularity inspection trolley based on fiber-optic gyro. Journal of Micro-Nanolithography Mems and Moems, 2010, 9(1): 013045.

  29. Benyong Chen, Enzheng Zhang, Liping Yan, Chaorong Li, Wuhua Tang, and Qibo Feng. A laser interferometer for measuring straightness and its position based on heterodyne interferometry. Review of Scientific Instruments, 2009, 80(11): 115113.

  30. Jinyun Ding, Qibo Feng*, Lianqing Zhang, and Shulian Zhang. Laser frequency splitting method for high-resolution determination of relative stress-optic coefficient and internal stresses in Nd:YAG crystals. Applied Optics, 2008, 47(30): 5631-5636.

  31. Qibo Feng*, Bin Zhang, and Cuifang Kuang. Four degree-of-freedom geometric error measurement system with common-path compensation for laser beam drift. International Journal of Precision Engineering and Manufacturing, 2008, 9(4): 26-31.

  32. Zhifeng Zhang, Qibo Feng*, Zhan Gao, Cuifang Kuang, Cheng Fei, Zhang Li, and Jinyun Ding. A new laser displacement sensor based on triangulation for gauge real-time measurement. Optics and Laser Technology, 2008, 40(2): 252-255.

  33. Cuifang Kuang, En Hong, Qibo Feng, Bin Zhang, and Zhifeng Zhang. A novel method to enhance the sensitivity for two-degrees-of-freedom straightness measurement. Measurement Science and Technology, 2007, 18(12): 3795-3800.

  34. Cuifang Kuang, En Hong, and Qibo Feng*. High-accuracy method for measuring two-dimensional angles of a linear guideway. Optical Engineering, 2007, 46(5): 051016.

  35. Cuifang Kuang, Qibo Feng, Bin Zhang, Bin Liu, Shiqian Chen, and Zhifeng Zhang. A four-degree-of-freedom laser measurement system (FDMS) using a single-mode fiber-coupled laser module. Sensors and Actuators A: Physical, 2005, 125(1): 100-108.

  36. Qibo Feng*, Bin Zhang, and Cuifang Kuang. A straightness measurement system using a single-mode fiber-coupled laser module. Optics and Laser Technology, 2004, 36(4): 279-283.

专著/译著

1.冯其波,谢芳,张斌,高瞻,邵双运 编著《光学测量技术与应用》,清华大学出版社,2008.5,ISBN 978-7-302-17136-2. 

2.焦明星,冯其波,王鸣,刘君 编著.《激光传感与测量》,科学出版社,普通高等学校“十二五"规划教材,2014.6,北京. ISBN 978-7-03-040664-4. 

3.参编英文专著《Laser Scanning, Theory and Applications》:Chapter 28.P543~566,“A New Laser Scanning System for Computed Radiography”.ISBN:978-953-307-205-0. INTECH,2011.04

专利

      1.Feng Qibo, Zhang Bin,Gao Zhan, Cui Cunxing. Laser Measurement System and Method for Measuring 21 GMES, United States PatentUS 9982997 B2, May 29,2018.

      2.Feng Qibo, Zhang Bin,Gao Zhan, Cui Cunxing. 6DOF Error Laser Simultaneous Measurement System With A Single Polarization Maintanence Fiber Coupling and Transimitting the Dual-Frenquency Laser, United States Patent, US 9857161B2, Jan 2,2018.

      3.冯其波;杨婧;利用光学方法的声屏障状态测量装置、系统和方法;CN201510142850.X;2015.03.27.

      4.冯其波;高岩;邵双运;崔建英;一种非接触式车轮直径动态测量装置及其测量方法;CN201410005647.3;2014.01.064.

      5.冯其波,杨婧.一种无缝钢轨纵向、横向位移同时测量装置、系统及其方法.201010534488.8

      6.冯其波,杨婧.一种路基表面沉降远程多点监测系统与方法.201010296205.0

      7.冯其波,杨婧,张斌.一种自适应扫描路基沉降远程监测装置与方法.200910243313.9

      8.冯其波,杨婧.钢轨参数自动测量装置、系统及其方法.200910087168.X

      9.冯其波,张斌,崔建英,陈士谦,颊东耀,高瞻,邵双远.路基分层垂直沉降与横向位移自动监测装置及其监测方法.200910076714.X

      10.冯其波,杨婧.一种利用激光远程测量路基沉降的装置与方法.200810222753.1

      11.冯其波,翟玉生,张斌.一种基于光栅的滚转角测量方法与装置.200810118863.3

      12.冯其波,张志峰,陈士谦,崔建英.基于激光的车轮直径非接触式动态测量装置及其方法.200810056339.8

      13.冯其波,高瞻.利用激光自动监测钢轨参数的装置、系统及其方法.200610113287.4

     14.冯其波.一种自动测量光线漂移角的激光准直系统与准直方法.200410006321.9

     15.冯其波.一种激光多自由度测量系统与方法.2003105126.X

     16.冯其波.一种激光测量车辆运动姿态的方法.2001120266.1 

软件著作权

获奖与荣誉

1.北京市优秀教师,2013.

2.重载铁路桥梁和路基检测与强化技术,教育部科学技术进步一等奖【排名第2,2012.

3.工业射线数字成像管道缺陷检测技术研究与设备研制,国家质量监督检验检疫总局科技兴检奖二等奖【排名第3,2010.

社会兼职

1.第一届、第二届中国仪器仪表学会设备结构健康监测与预警分会 副理事长;

2.中国仪器仪表学会光机电技术与系统集成分会副理事长;

3.中国计量测试学会计量仪器专业委员会副主任委员;

4.第六、七届中国计量测试学会理事会 常务理事

5.第一届光学工程学会 理事;

6.全国光电测量标准化委员会 委员。