Zhang Yixin

发布者:凌舒乐发布时间:2020-04-25浏览次数:142

Zhang Yixin

Associate professor

Address: Rm. 410, Xiexin Building, 5 Pingcang Xiang, Gulou District.

Tel: 83597544-410

Emailzyixin@nju.edu.cn

Lab Homepage:

http://ocer.nju.edu.cn/ocer/index.php

Research Areas:

Distributed fiber sensing technique and its engineering application; circuit system design; Digital signal processing

Courses:

For undergraduates: Microcomputer Principles; Microcomputer Interface Technology; OME Synthetic Design.

For graduate students: Engineering Circuits; Principles of Photoelectric Instruments.

Profile:

Zhang Yixin received his Ph.D. in electronic science and technology in June 2011 from Nanjing University (NJU). During his doctoral study, he led and successfully completed a project (CX10B_020Z) of Jiangsu Scientific Research Funds for College Graduate Students and was awarded Wang Daheng Optics Award to College Graduates Funds for the outstanding achievement he had made.

After he completed his Ph.D., Zhang went to study at School of Electrical and Electronic Engineering, Nanyang Technological University (NTU), Singapore, and did his post-doctoral research there. He then led the NTU lab research team and participated in the advanced research project on national defense equipment by DSO National Laboratories, Singapore, and had successfully developed a prototype of quantum key distribution system that could operate on the site.

Zhang joined the faculty of the Optical Communication Engineering Research Center (OCER), NJU, in 2012 as a full-time assistant researcher and became an associate professor in 2015. His research focuses on the mechanisms and instrument design of the distributed fiber sensing system. He has published 50 and more papers in Optics Letters, Optics Express and others and holds 48 patents, 26 of them have been licensed and another one has passed the provincial-ministerial level appraisal.

In recent years, Zhang works as the leader or a major participant in 23 national, provincial and corporate research projects and has gained rich theoretical knowledge and practical experience in weak signal detection, high-speed data acquisition, and digital signal processing.


Research Achievements

Published Papers (Note: * refers to corresponding author; # refers to equal contributor)

[1] Qi, Li, Wang, Shun, Zhang, Yixin, Sun, Yingying, & Zhang, Xuping. (2015). Quality inspection guided laser processing of irregular shape objects by stereo vision measurement: application in badminton shuttle manufacturing. Optical Engineering, 54(11), 113101.

[2] Zhu, Fan, Zhang, Yixin,* Xia, Lan, Wu, Xuelin, & Zhang, Xuping. (2015). Improved ZOTDR sensing system for high-precision dynamic strain measurement based on ultra-weak fiber Bragg grating array. Journal of Lightwave Technology, 33(23), 4775-4780.

[3] Zhu, Fan, Zhang, Xuping, Xia, Lan, Guo, Zheng, & Zhang, Yixin.* (2015). Active compensation method for light source frequency drifting in Φ-OTDR sensing system. IEEE Photonics Technology Letters, 27(24), 2523-2526.

[4] Tu, Guojie, Zhang, Xuping,* Zhang, Yixin,* Zhu, Fan, Xia, Lan, & Nakarmi, Bikash. (2015). The development of an Φ-OTDR system for quantitative vibration measurement. IEEE Photonics Technology Letters, 27(12), 1349-1352.

[5] Qi, Li, Zhang, Yixin, Wang, Shun, Yang, Huan, & Zhang, Xuping. (2015). Laser cutting of irregular shape object based on stereo vision laser galvanometric scanning system. Optics and Lasers in Engineering, 68, 180-187.

[6] Zhang, Xuping, Qi, Li, Tang, Zhiqiang, & Zhang, Yixin.* (2014). Portable true random number generator for personal encryption application based on smartphone camera. Electronics Letters, 50(24), 1624-1626.

[7] Tu, Guojie, Zhang, Xuping, Zhang, Yixin,* Ying, Zhoufeng, & Lv, Lidong. (2014). Strain variation measurement with short-time Fourier transform-based Brillouin optical time-domain reflectometry sensing system. Electronics Letters, 50(22), 1624-1626.

[8] Zhang, Yixin, Wu, Xuelin, Ying, Zhoufeng, & Zhang, Xuping. (2014). Performance improvement for long-range BOTDR sensing system based on high extinction ratio modulator. Electronics Letters, 50(14), 1014-1016.

[9] Zhang, Yixin, Zhang, Xuping, Shi, Yuanlei, Ying, Zhoufeng, & Wang, Shun. (2014). Electro-optic modulator based gate transient suppression for sine-wave gated InGaAs/InP single photon avalanche photodiode. Optical Engineering, 53(6), 067102.

[10] Ying, Zhoufeng, Zhang, Xuping, Wang, Shun, Xie, Fei, & Zhang, Yixin.* (2014). Gigahertz-clocked InGaAs/InP single photon avalanche photodiode with tunable gating frequency. Microwave and Optical Technology Letters, 56(8), 1742-1744.

[11] Ying, Zhoufeng, Wang, Guanghui, Zhang, Xuping, Huang, Ying, Ho, Ho-pui, & Zhang, Yixin. (2015). Ultracompact TE-pass polarizer based on a hybrid plasmonic waveguide. IEEE Photonics Technology Letters, 27(2), 201-204.

[12] Zhang, Yixin, Zhang, Xuping, & Wang, Shun. (2013). Gaussian Pulse Gated InGaAsInP Avalanche Photodiode for Single Photon Detection. Optics Letters, 38(5), 606-608.

[13] Zhang, Yixin, Wang, Shun, Zhang, Xuping, Xie, Fei, & Wang, Jiaqi. (2013). Freight train gauge-exceeding detection based on three-dimensional stereo vision measurement. Machine Vision and Applications, 24(3), 461-475.

[14] Zhang, Yixin, Xie, Fei, Yang, Guowen, Zhang, Xuping, & Wang, Shun. (2013). Balanced single photon avalanche detector with variode based spike noise cancellation. Microwave and Optical Technology Letters, 55(12), 2877-2879.

[15] Qi, Li, Zhang, Yixin, Zhang, Xuping, Wang, Shun, & Xie, Fei. (2013). Statistical behavior analysis and precision optimization for the laser stripe center detector based on Steger’s algorithm. Optics Express, 21(11), 13442-13449.

[16] Xie, Fei, Zhang, Yixin, Wang, Shun, Zhang, Xuping, & Qi, Li. (2013). Robust extrication method for line structured-light stripe. International Journal for Light and Electron Optics, 124(23), 6400-6403.

[17] Zhang, Xuping, Hu, Junhui, & Zhang, Yixin. (2013). A hybrid single-end-access BOTDA and COTDR sensing system using heterodyne detection. Journal of Lightwave Technology, 31(12), 1954-1959.

[18] Zhang, Yixin, Wang, Jiaqi, Wang, Shun, Zhang, Xuping, & Yu, Qian. (2012). Freight train gauge-exceeding detection based on large scale 3D geometric vision measurement. Chinese Journal of Scientific Instrument, 33(1), 181-187.  

[19] Zhang, Yixin, Wang, Shun, & Zhang, Xuping. (2010). Defocused blur image restoration in large scale 3D vision measurement. Chinese Journal of Scientific Instrument, 31(12), 2748-2753.  

[20] Zhang, Xuping, Wang, Jiaqi, Zhang, Yixin, Wang, Shun, & Xie, Fei. (2012). Large-Scale Three-Dimensional Stereo Vision Geometric Measurement System. Acta Optica Sinica, 33(1), 41-47.  

[21] Zhang, Xuping, Liu, Zhenqian, Wang, Shun, & Zhang, Yixin. (2012). Research on train gauge-exceeding detection system based on dual-processor architecture. Chinese Journal of Scientific Instrument, 33(1), 91-96.  

[22] Wang, Shun, Zhang, Yixin, Guo, Yaming, Zhang, Xuping, & Lu, Yuangang. (2009). Implement of a portable single-mode fiber fusion splicer’s image system. Acta Optica Sinica, 30(6), 234-237.  

[23] Guo, Yaming, Zhang, Xuping, Xie Fei, Zhang, Yixin, & Wang, Shun. (2011). Characteristic research and detection scheme of gigabit passive optical network upstream optical signal. Acta Optica Sinica, 31(3), 46-51.  

[24] Zhang, Xuping, Lu, Yuangang, Wang, Feng, Liang, Hao, & Zhang, Yixin. (2011). Development of fully-distributed fiber sensors based on Brillouin scattering. Photonic Sensors, 1(1), 54-61.

[25] Wang, Shun, Xu, Jingzhu, Zhang, Yixin, Zhang, Xuping, & Xie, Fei. (2011). Reliability Evaluation Method and Application for Light-Stripe-Center Extraction. Acta Optica Sinica, 31(11), 203-209.  

[26] Wang, Shun, Qi, Li, & Zhang, Yixin. (2011). Planar target based structured light calibration method for flexible large-scale 3D vision measurement. Sensors and Materials, 25(7).

[27] Zhang, Kai, & Zhang, Yixin.* (2011). An electro-optic modulator bias point stabilization technique for the distributed brillouin sensing system. Applied Mechanics and Materials, 71-78, 1200-1203.

[28] Yu, Qian, Zhang, Xuping, & Zhang, Yixin, Wang, Shun, & Qi, Li. (2012). Novel Method for Structured Light Plane Calibration in Three-Dimensional Vision Measurement. Chinese Journal of Lasers, 31(S1), S108006.  

[29] Xie, Fei, Zhang, Xuping, Zhang, Yixin, Wang, Shun, & Xu, Jingzhu. (2012). Exterior Orientation Calibration Method for Freight Train Gauge-exceeding Detection Based on Computer Vision. Journal of the China Railway Society, 34(10), 72-78.  

[30] Zhang, Yixin, Wang, Shun, & Zhang, Xuping. (2008). Development of self-adaptive polarization scrambling module for the Brillouin optical time domain reflecting sensing system. Electronic Measurement Technology, 31(5), 31-34.  

[31] Zhang, Yixin, Wang, Shun, Lu, Yuangang, & Zhang, Xuping. (2007). Process Automation Instrumentation, 28(11), 55-57.  

[32] Zhang, Yixin, Tian, Xuelong, & Gao, Jianjun. (2007). Implementation of VCSEL’s Equivalence Circuit Model of SPICE. Research & Progress of SSE, 27(4), 564-566.  

[33] Dong, Yin, Zhang, Yixin, Wang, Shun, & Zhang, Xuping. (2007). Development of a Data Collection Module for the Brillouin Optical Time Domain Reflecting Sensing System. Optoelectronic Technology, 27(2), 88-91.  

[34] Zhang, Yixin. (2005). Object-based Image Compression Technology. Optoelectronic Technology, 25(3), 187-190.  


Proceedings:

[1] Zhang, Xuping,* Zhang, Yixin, & Wang, Guanghui. (2015). Fully distributed optical fiber sensing technology and its application in optical communication cable (invited). Optoelectronic Global Conference.

[2] Xu, Yemian, Xia, Lan, Zhu, Fan, Zhang, Xuping, Zhang, Yixin,* & Chen, Haisheng. (2015). Research on the polarization-relevance noise and multipoint high frequency detection of arization-relevance noise and multipoint high frequency de. (Best Student Paper Awards)

[3] Sun, Zhenhong, Xia, Lan, Zhu, Fan, Zhang, Xuping, Zhang, Yixin,* & Chen, Haisheng. (2015). The influences of light-source frequency drift on equenc’s sensibility and its dynamic compensation. Academic Conference of the Chinese Optical Society.

[4] Cao, Chunqi, Xia, Lan, Zhu, Fan, Zhang, Xuping, Zhang, Yixin,* & Huang, Jinyuan. (2015). The enhanced phase s dynamic compensation. Academic Conference of the Chinese Optical Societymunication cable (invited).scale 3D vision measurement. ring. paper, 2014, V92700L -4

[5] Zhang, Xuping, Xia, Lan, Zhang, Yixin, Zhou, Ling, & Sun, Zhenhong. (2015). A new designed FBG and Ф-OTDR hybrid system for vibration and temperature sensing, ICOCN. 

[6] Xia, Lan, Zhang, Yixin, Zhu, Fan, Cao, Chunqi, & Zhang, Xuping.* (2015). The performance limit of Φ-OTDR sensing system enhanced with ultra-weak fiber Bragg grating array, OIT, 962003. (Best Student Paper Awards).

[7] Zhang, Yixin, Xia, Lan, Wu, Xuelin, Zhang, Xuping,* & Wang, Guanghui. (2014). Performance enhancement for long distance BOTDR sensing system based on high extinction ratio probe pulse generator (invited). Photonics Asia, V92700L.

[8] Zhang, Yixin, Qiao, Weiyan, Wu, Xuelin, Tu, Guojie, & Zhang, Xuping.* (2014). Real-time BOTDR sensing system for dynamic strain measurement. OFSC. 

[9] Wu, Xuelin, Zhang, Yixin, Ying, Zhoufeng, Xia, Lan, & Zhang, Xuping. (). Performance enhancement for long distance BOTDR sensing system based on high extinction ratio modulator.


Patents

[1] Zhang, Yixin, Zhu, Fan, Zhang, Xuping, Jiang, Ming, Xia, Lan, & Li, Jianhua. (2015). A method for Control device and method200910034225.d the device employing polarized light and orthogonal pulses. Chinese Patent No. 201510416927.8.

[2] Zhang, Yixin, Zhang, Xuping, Guo, Zheng, Zhu, Fan, Li, Jianhua, & Liu, Pinyi. (2015). Phase-sensitive optical time-domain reflectometer device based on Bragg fiber grating array and the method. Chinese Patent No. 201510389252.2.

[3] Zhang, Yixin, Sun, Zhenhong, Zhang, Xuping, Xia, Lan, & Wang, Shun. (2015). A new type of BOTDR coherent detection device and the method based on cyclical frequency shift. Chinese Patent No. 201510142364.8.

[4] Zhang, Yixin, Zhu, Fan, Zhang, Xuping, Wang, Shun, & Tang, Zhiqiang. (2015). A method to enhance the sensitivity of device and the method based on cyclical frequency shift. he method. Chinese Patent No. 201510111885.7.

[5] Zhang, Yixin, Qi, Li, Wang, Shun, Zhang, Chao, & Zhang, Xuping. (2015). The calibration targets, system and method of a binocular camera. Chinese Patent No. 201510101490.9.

[6] Zhang, Yixin, Zhang, Xuping, Qi, Li, Wang, Shun, & Zhang, Chao. (2015). A feather’s defect inspection system and the method. Chinese Patent No. 201510026634.9.

[7] Zhang, Yixin, Zhang, Xuping, Zhou, Ling, Song, Yuejiang, & Guo, Zheng. (2014). A code-based method for the suppression of coherent Rayleigh noise. Chinese Patent No. 201418007836.5. (for national defense)

[8] Zhang, Yixin, Zhang, Xuping, Wang, Shun, Qi, Li, & Zhang, Chao. (2014). A calibration method for laser galvanometer system of processing by binocular stereoscopic-vision guidance. Chinese Patent No. 201410660688.6.

[9] Zhang, Yixin, Zhang, Xuping, Qiao, Weiyan, Tang, Zhiqiang, & Qi, Li. (2014). A true random bit sequence generator and the method. Chinese Patent No. 201410516031.2.

[10] Zhang, Yixin, Zhang, Xuping, Yang, Huan, Wang, Shun, & Wang, Guanghui. (2014). A type of near-infrared spectroscopy and its measuring method. Chinese Patent No. 201410105844.2.

[11] Zhang, Yixin, Zhang, Xuping, Tang, Zhiqiang, Wang, Yuanyuan, & Li, Baojia. (2014). A computer-assisted method for the grading of Chinese unwritten compositions. Chinese Patent No. 201410235530.4.

[12] Zhang, Yixin, Zhang, Xuping, Shi, Yuanlei, Xia, Lan, & Sun, Zhenhong. (2014). A high dynamic range measuring device and method of photon counting weak light signals. Chinese Patent No. 201410326414.3. (granted).

[13] Zhang, Yixin, Wang, Shun, Yu, Qian, Zhang, Xuping, & Li, Jianhua. (2010). The measuring method of the non-contact rails at the vertical surface. Chinese Patent No. 201010553032.6. (granted).

[14] Zhang, Yixin, Zhang, Xuping, & Sun, Jianan. (2013). Ecological high emulation firecracker. Chinese Patent No. 201320221993.6. (granted).

[15] Zhang, Yixin, Zhang, Xuping, Shi, Yuanlei, & Huang, Jinyuan. (2013). The quantum key distribution system based on time-slot interweaving and actively polarized compensation. Chinese Patent No. 201320452255.2. (granted).

[16] Zhang, YixinZhang, Xuping, Wu, Xuelin, & Ying, Zhoufeng. (2013). The automatic locking device and the method of ultrahigh-extinction-ratio electrooptical modulator’s biased position. Chinese Patent No. 201310026652.8. (granted).

[17] Zhang, Yixin, Zhang, Xuping, Yang, Guowen, Wang, Shun, & Hu, Junhui. (2013). Gating near-infrared single photon detector employing frequency-tunable Ghz sine. Chinese Patent No. 201310027060.8. (granted).

[18] Zhang, Xuping, Zhang, Yixin, Wu, Xuelin, Tang, Zhiqiang, & Ying, Zhoufeng. (2013). A pulsed-light dynamic extinction ratio measuring device with high dynamic range and the method. Chinese Patent No. 01310353698.0. (granted).

[19] Zhang, Xuping, Zhang, Yixin, Yang, Guowen, Wang, Shun, Qi, Li, & Li, Jianhua. (2011). The automatic checkcout equipment for high-speed locomotive’s pantograph pan abrasion. Chinese Patent No. 201110349366.6. (granted).

[20] Zhang, Xuping, Xie, Fei, Zhang, Yixin, Li, Qiang, & Wang, Shun. (2013). Defect inspection method for extracted chips based on multi-scale corners. Chinese Patent No. 201310186579.0. (granted).

[21] Ying, Zhoufeng, Wang, Shun, Zhang, Xuping, Guo, Yaming, & Zhang, Yixin. (2013). A method and the device to enhance the sensitivity of reflecting vibration measurement with laser. Chinese Patent No. 201310411164. (granted).

[22] Wang, Shun, Wang, Liang, & Zhang, Yixin. (2007). Attemperator measured basedon load signature detection. Chinese Patent No. 200710191030.5. (granted).

[23] Wang, Shun, Zhang, Yixin. (2007). Push-pull power amplifier paired without power tube. Chinese Patent No. 200710191065.9. (granted).

[24] Wang, Shun, Zhang, Yixin, Zhang, Xuping, Xu, Jingzhu, & Li, Jianhua. (2010). A measuring method for the photoelectric railway gauge and platform interval. Chinese Patent No. 201010173602.9. (granted).

[25] Wang, Shun, Yu, Qian, Zhang, Yixin, & Zhang, Xuping. (2009). Measurement and controlling of smart voice-control liquid level. Chinese Patent No. 200910033264.6. (granted).

[26] Wang, Shun, Zhang, Yixin. (2007). Resonant multi-station tuentable with high speed and high precision. Chinese Patent No. 200710191031.X. (granted).

[27] Wang, Shun, Zhang, Xuping, Zhang, Kai, Zhang, Yixin, & Lu, Yuangang. (2010). The control device and the method of electro-optic modulator employing bias voltage. Chinese Patent No. 201010173594.8. (granted).

[28] Zhang, Xuping, Wang, Shun, Zhang, Yixin, & Zhu, Fan. (2010). An real-time spectral analysis device for Brillouin scattering and its data processing method. Chinese Patent No. 201010152616.2. (granted).

[29] Wang, Shun, Zhang, Yixin, Liu, Zhenqian, & Zhang, Xuping. (2010). A vibrational state control device and its method. Chinese Patent No. 2010102744234. (granted).

[30] Wang, Shun, Zhang, Yixin, Zhang, Xuping, Yu, Qian, & Li, Jianhua. (2010). A fast and non-contact measuring method for railway clearance. Chinese Patent No. 201010266402.8. (granted).

[31] Wang, Shun, Zhang, Xuping, Wang, Jiaqi, & Zhang, Yixin. (2010). A measuring method of 3D geometric profile based on binocular vision. Chinese Patent No. 201010511502.2. (granted)

[32] Zhang, Xuping, Zhang, Yixin, Xu, Jingzhu, & Wang, Shun. (2010). The evaluation methodology of the reliability of structured light stripes center. Chinese Patent No. 201010554185.2. (granted).

[33] Guo, Yaming, Xiao, Jian, Qi, Li, Yu, Qian, Zhang, Xuping, Wang, Shun, & Zhang, Yixin. (2011). A type of actively luminescent target for automatic calibration of machine vision and its calibration method. Chinese Patent No. 201110328922.1. (granted).

[34] Feng, Zhiyong, Wang, Shun, Zhang, Xuping, & Zhang, Yixin. (2010). The correction method of dynamic frequency-deviation and the coherent optical time domain reflectometer system. Chinese Patent No. 201010601965.8. (granted).

[35] Wang, Shun, Zhang, Yixin, Xie, Fei, Zhang, Xuping, & Li, Jianhua. (2010). A measuring method to get data of reference plane in the railway clearance. Chinese Patent No. 201010552903.2. (granted).

[36] Zhang, Xuping, Hu, Junhui, Li, Cunlei, & Zhang, Yixin. (2012). The single-photon detective Brillouin optical time-domain reflectometer employing edge filtering. Chinese Patent No. 201210083195.1. (granted).

[37] Wang, Shun, Zhang, Xuping, Qi, Li, Zhang, Yixin, & Guowen Yang. (2011). The online abrasion inspection method and the system for electric locomotive pantograph. Chinese Patent No. 201110349370.2. (granted).

[38] Wang, Shun, Zhang, Xuping, Zhang, Yixin, Wang, Liang, & Guo, Yaming. (2007). The high-speed-and-high-precision data acquisition card with adjustable sample rate. Chinese Patent No. 200710191032.4. (granted).

[39] Yixin Zhang, Xuping Zhang, & Jianan Sun. (2013). Photoelectric and ecological high-emulation firecracker. Chinese Patent No. 201310151821.0.

[40] Zhang, Yixin, Zhang, Xuping, Wang, Shun, Tu, Guojie, & Huang, Jinyuan. (2013). An ADC data organization system of high storage efficiency and the method. Chinese Patent No. 201310238230.7.

[41] Zhang, Yixin, Zhang, Xuping, Guo, Zheng, Wang, Shun, & Shi, Yuanlei. (2013). A Ghz sine gating near-infrared single-photon detector with tunable frequency. Chinese Patent No. 201310382902.1.

[42] Zhang, Yixin, Zhang, Xuping, Shi, Yuanlei, & Huang, Jinyuan. (2013). A quantum key distribution system based on slot interweaving and actively polarized compensation and the method. Chinese Patent No. 201310320542.2.

[43] Zhang, Xuping, Zhang, Yixin, Qiao, Weiyan, Sun, Zhenhong, & Zhou, Ling. (2015). Coherent optical time domain reflectometer system with ultrahigh dynamic range. Chinese Patent No. 201518005286.8. (for national defense)

[44] Zhang, Xuping, Zhang, Yixin, Tu, Guojie, Wang, Shun, & Huang, Jinyuan. (2013). RANSAC digital filtering method based on self-adaptive double threshold value. Chinese Patent No. 201310239407.5.

[45] Sheng, Yawei, Sun, Jianan, Zhang, Yixin, Niu, Jihui, & Zhang, Xuping. (2015). Fast temperature measuring system employing contacting infrared temperature measurement for automobile engine. Chinese Patent No. 201520786243.2.

[46] Wang, Guanghui, He, Haopei, Zhang, Xuping, Ying, Zhoufeng, & Zhang, Yixin. (2014). A type of liquid-drop logic control unit on microfluidic chip. Chinese Patent No. 201410432846.2.

[47] Wang, Shun, Zhang, Yixin, Xie, Fei, & Zhang, Xuping. (2009). The vibration monitoring structure employing polarization optical time-domain reflectometer for fiber sensing and the method. Chinese Patent No. 200910034226.2.

[48] Wang, Shun, Zhang, Xuping, Zhang, Yixin, & Kai Zhang. (2009). The thermostatic control device with monitored heat transfer rate and the method. Chinese Patent No. 200910034225.8.

Others:

  1. 2015, First Prize of Wu Wen Jun AI Science & Technology Awards te and the method. “Intelligent sensing technology employing continuously distributed optical fibers and its application”.

  2. 2014, Science & Technology Progress Award of County He, Anhui Province (4/4): “Research and development of the key techniques for feather laser cleaving system”.

  3. 2013, Third Prize of Wu Wen Jun AI Science & Technology Awards rovince (4/4): “Re“Intelligent feather recognizing and cleaving technology based on stereoscopic vision guidance and its application into the preparation of three-section shuttlecock ”.

  4. 2012, Shanghai Railway Bureau Science & Technology Awards ards rovince (4/4): “Portable measuring instrument for vehicle and cargo clearance”.

  5. 2011, First Prize of MOE Science & Technology Invention Award (7/12): “Continuously distributed multi-parameter sensing and monitoring technology”.

  6. 2009, Chinese Optical Society Wang Daheng Optical Awards · For Outstanding College Students. (1/1)


Graduate Students Achievements:

National scholarship winners:

  1. Wu xuelin, 2014

  2. Yang Huan, 2014

  3. Xia Lan, 2015

Outstanding graduates scholarship winners:

  1. Xu Yemian, 2015

  2. Sun Jianan, 2015

Qiao Weiyan, 2015