个人简介
教育背景: 中科院西安光学精密机械研究所获博士学位; 中科院西安光学精密机械研究所获硕士学位; 北京理工大学工程光学系获工学学士学位; 研究工作经历 2004.7-至今,北京交通大学理学院光电检测技术研究所副教授,教授,博导; 2009.1-2009.10,香港理工大学机械工程系合作研究; 2002年2月-2004年3月,丹麦Aarhus大学化学系助理教授; 2000年2月-2002年2月,日本北海道大学工学部日本学术振兴会(JSPS)外国人特别研究员;
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Chuqian Zhong, Zhan Gao *, Xu Wang, “Structured Light Three-Dimensional Measurement Based on Machine Learning”, Sensors,19(14), 3229, 2019.
Xu Wang , Zhan Gao *, Chenjia Gao, Jieming Zhao, “Digital Shearing Speckle Pattern Interferometry Based on Rochon Prism and Its Application”, Appl. Sci. 9, 2554, 2019.
Chenjia Gao, Zhan Gao,* Xu Wang, Zihui Liu, “Real-time measurement of microcantilever displacement based on Linnik microscopic speckle interferometer”, Optical Engineering 57(12), 124101 , 2018.
Chuqian Zhong , Zhan Gao* , Xu Wang, “The machine learning method of phase extraction in interferometry”, Optics and Lasers in Engineering 110 ( 384–391,2018.
Shanwei Yang, Zhan Gao*, Haihui Ruan, “Non-Contact and Real-Time Measurement of Kolsky Bar with Temporal Speckle Interferometry”, Appl. Sci. 8, 808, 1-15,2018.
Xu Wang, Zhan Gao*, Shanwei Yang, “Application of digital shearing speckle pattern interferometry for thermal stress”, Measurement 125 (2018) 11–18, April, 2018.
Xu Wang, Zhan Gao*, Jie Qin, Xiaoqiong Zhang, Shanwei Yang, “Temporal heterodyne shearing speckle pattern interferometry”, Optics and Lasers in Engineering, Vol: 93 76-82 , JUN 2017.
Jie Qin, Zhan Gao *, Xu Wang and Shanwei Yang,“Three-Dimensional Continuous Displacement Measurement with Temporal Speckle Pattern Interferometry”, Sensors, 16(12), 2020, 2016.
Xiaoqiong Zhang, Zhan Gao*, Jie Qin, Guangyu Li, Ziang Feng, and Shengjia Wang, “Synchronous two-wavelength temporal interferometry”, Proc. of SPIE Vol. 9684 968409-1-9, 2016.
Ziang Feng, Zhan Gao*, Xiaoqiong Zhang, Shengjia Wang, Dong Yang, Hao Yuan, and Jie Qin, “A polarized digital shearing speckle pattern interferometry system based on temporal wavelet transformation”, Rev. Sci. Instrum., 86(9),093102-1-8, 2015.
Ziang FENG, Zhan GAO*, Xiaoqiong ZHANG, Shengjia WANG, “Research on key factors in the digital shearing speckle pattern interferometry”, Proc. of SPIE Vol. 9621 962109-1-6, 2015.
Shengjia Wang, Zhan Gao*, Ziang Feng, “Heterodyne imaging speckle interferometer”,Optics Communications, Vol. 338, 253-256, 2015.
Shengjia Wang, Zhan Gao *, Guangyu Li, Ziang Feng, and Qibo Feng, “Continual mechanical vibration trajectory tracking based on electro-optical heterodyne interferometry”, OPTICS EXPRESS,Vol.22, No.7, 7799-7810, 2014.
Guangyu Li, Zhan Gao*, Yan Deng, “Research of Temporal Speckle Pattern Interferometry for in-plane”, 2013 International Conference on Optical Instruments and Technology: Optoelectronic Measurement, Proc. of SPIE Vol. 9046 904603-1-10, 2013.
Shengjia Wang, Zhan Gao*, Guangyu Li, and Ziang Feng,“Adaptive pulse oximeter with dual-wavelength based on wavelet transforms”,OPTICS EXPRESS,Vol. 21, No. 20, 23058-23067,2013.
段怡婷,李光宇,高瞻*,“生物散斑测量技术综述”,激光与光电子学进展,2013,50(2),020003-1—020003-13.
Zhan GAO, Yan DENG, Yiting DUAN, Zhifeng ZHANG, “Continual In-plane displacement measurement with temporal Wavelet transform speckle pattern interferometry”, Rev. Sci. Instrum.,83(1),015107-1-6,2012.
Zhang Zhifeng, Gao Zhan, “Computer Vision Based Method and System for Online Measurement of Geometric Parameters of Train Wheel Sets”, Sensors, 2012,12,334-346.
Zhan GAO, Yaya Mao, “An imaging polarization spectrometer based on the Wollaston prisms”, Optical Engineering,2011,50(4):043602.
Ren Shengwei, Gu Shiping, Xu Guiyang, Gao Zhan, Feng Qibo, “A New Track Inspection Car Based on the Laser Camera System”, Chinese Optics Letters, 2011, 9(3).
Zhang Zhifeng, Su Zhan, Su Yuling, Gao Zhan, “Denoising of sensor signals for the flange thickness measurement based on wavelet analysis”,Optik, 2011,122(8):681-686.
Zhan GAO, Qibo Feng, “A track irregularity inspection trolley based on fiber optic gyro”,Journal of Microlithography, Microfabrication, and Microsystems, 2010, 9(1):013045.
Zheng Meng, Feng Qibo,Gao Zhan, “Experiments and analyses of a new type optical system for computed radiography”,Chinese Optics Letters, 2010, 8 (8) p 800-803.