一、 个人基本信息

出生日期：1986年12月

籍贯： 山西省

性 别：男

民 族：汉

职称：教授

最高学历：博士研究生

导师类型：硕士生导师（080200【机械工程】、085501【机械工程】、081100【控制科学与工程】、085400【电子信息】、085406【控制工程】），博士生导师（082300【交通运输工程】）

工作单位：taptap下载安装安卓航空工程学院

通信地址：天津市taptap下载安装安卓南院机械材料教研楼-407

邮政编码：300300

电 话：022-24092404(办)

传 真：022-24092404

电子邮箱：j_wu@cauc.edu.cn

微信（或QQ）：13920619883

二、 学习和工作经历简介

●2005.09-2009.06：天津大学 测控技术与仪器 本科

●2009.09-2014.06：天津大学 仪器科学与技术 博士

●2014.07-2018.12：taptap下载安装安卓 航空工程学院 讲师

●2019.01-2023.12：taptap下载安装安卓 航空工程学院 副教授

●2024.01-至今：taptap下载安装安卓 航空工程学院 教授

三、 学术兼职

●天津大学精密测试技术及仪器国家重点实验室客座研究员

●中国航空学会可靠性工程分会青年委员

●中国计量测试学会在线监测技术及智能制造专业委员会委员

四、 社会兼职

●无

五、 荣誉称号

●2016年天津市“131”创新型人才培养工程第三层次人选

●2017年taptap下载安装安卓青年骨干教师人选

●2020年taptap下载安装安卓蓝天青年学者人选

六、 主要研究方向和科研业绩

●主要研究方向包括：

[1]基于定量纹影成像技术的航空发动机尾喷流场、温度场同步检测方法

[2]基于智能AGV平台的飞机拖动过程碰撞风险检测方法

[3]基于深度学习的飞机蒙皮损伤智能检测方法

●科研业绩：

1.基于激光诱导及散斑图像处理的航空发动机尾气粒子流场监测关键技术研究，国家自然科学基金与民航联合基金，国家级，23万，2016年-2018年，主持(U1533111)

2.基于光场纹影法的高温高速流场空间三维温度场测量方法，国家自然科学基金青年基金，国家级，24万，2021年-2023年，主持(52005500)

3.基于纹影定量测量的燃烧室多尺度湍流三维结构动态测量方法，国家自然科学基金面上项目，50万，2024.01-2027.12，主持，(52375557)

4.基于定量光场纹影法的航空发动机燃烧室出口温度场精确测量方法，天津市自然科学基金多元投入面上项目，10万，2024.10-2027.9，主持，(24JCYBJC00160)

5.基于智能AGV平台的飞机拖动安全距离精确检测系统，中央高校基本科研业务费taptap下载安装安卓培育专项，40万，2023.05-2025.04，主持（3122023PY06）

●获奖：

[1]齿轮-轮系教学综合演示实验台，中国高等教育学会，全国高等学校教师自制实验教学仪器设备创新大赛三等奖，2018-10（排名1）

[2]基于OBE理念及自制实验教学设备重构机电类课程实验教学体系的探索与实践，taptap下载安装安卓，教学成果二等奖，2021-10 （排名1）

[3]机电控制一体化教学团队，taptap下载安装安卓优秀教学团队，2021-06（排名1）

[4]基于物理先验感知的智能监测与制造及产业化应用，天津市科技进步二等奖，2024-02（排名4）

[5]民用飞机预测性维修关键技术及应用，自动化学会科技进步二等奖，2024-12（排名5）

[6]民机典型部件剩余寿命和健康管理关键技术及应用，天津市科技进步二等奖，2025-01（排名7）

七、 论著目录

●学术论文：

[1]Wu Jun，Zhu Jigui，Yang Linghui*，Shen Mengting，Xue Bin，Liu Zhexu，A highly accurate ultrasonic ranging method based on onset extraction and phase shift detection，Measurement，2014，（47）：433-441．（SCI：000328196600051）

[2]Wu Jun，Zhu Jigui，Yang Linghui*，Shen Mengting，Xue Bin，Liu Zhexu，A novel ultrasonic ranging method used for single station indoor GPS，Transaction of the Institute of Measurement and Control，2015，37（1）：25-32．（SCI：000346645400003）

[3]Wu Jun*，Yu Zhijing，Zhuge Jingchang，Self-calibration method for rotating laser positioning system using interscanning technology and ultrasonic ranging，Journal of the Optical Society of America A: Optics and Image Science, and Vision，2016，33（4）：544-550．（SCI：000373398300015）

[4]Wu Jun*，Zhu Jigui，Yu Zhijing，Zhuge Jingchang，Three-dimensional temperature field compensation technology for large-scale ultrasonic positioning system，Transactions of the Institute of Measurement and Control，2017，39(12)：1841-1850（SCI）

[5]Wu Jun*, Zhu Jigui, Yu Zhijing, Zhuge Jingchang, Xue Bin, A total station spatial positioning method based on rotary laser scanning and ultrasonic ranging, Review of Scientific Instruments, 2016, (87), 115104. (SCI)

[6]Wu Jun, Yu Zhijing, Wang Tao, Zhuge Jingchang, Ji Yue*, Xue Bin, Airplane wing deformation and flight flutter detection method by using three-dimensional speckle image correlation technology,  Journal of the Optical Society of America A: Optics and Image Science, and Vision, 2017, 34(6), 924-930.

[7]Yu Zhijing, Ma Kai, Wang Zhijun, Wu Jun*, Wang Tao, Zhuge Jingchang, Surface modeling method for aircraft engine blades by using speckle patterns based on the virtual stereo vision system, Optics Communications, 2018, 411,33-39.

[8]Ji Yue, Wu Jun*, Calibration method of light-field camera for photogrammetry application, Measurement, 2019, 148, 106943-1-7.

[9]Wu Jun, Li Xin, Xu Haitao, Xu Jun, Yu Zhijing*, Image distortion correction method in a nonuniform temperature field by using Runge-Kutta ray tracing, Journal of the Optical Society of America A: Optics and Image Science, and Vision, 2019, 36(10), 1795-1800.

[10]Yue Ji, Zhan Li, Liping Liu, Jingjing Wang, Jun Wu*, A deformation detection method for aircraft skin on uniform pressure by using speckle image correlation technology, Measurement, 2020, 154, 107525-1-7.

[11]Wu Jun, Li Zhan, Zhang Jin, Wang ning, Wang Tao*, Wang Hao, Tang Jie, Adaptive Positioning Repair Method for Aero-Engine Blades by Using Speckle Vision Measurement, IEEE Access, 2020, 8(1), 73307-73319.

[12] Yue Ji, Yun Du, Guozhong Yan, Xingfei Li, Jun Wu*, Weixiao Tuo, Jinyi Li, Adaptive Kalman Filter Enhanced With Spectrum Analysis for Wide-Bandwidth Angular Velocity Estimation Fusion, IEEE Sensors Journal, 2020, 20(19), 11527-11536.

[13] Jun Wu, Yanling Li, Fengcheng Song, Yuheng Zhu, Zhijing Yu*, 3D non-axisymmetric temperature field measurement using rotating tomographic mechanism schlieren method, Measurement Science and Technology, 2021, 32, 125204.

[14] Wu Jun*, Song Fengcheng, Feng Chengbin, Yu Zhijing, Full space coordinate measurement method with a portable light pen by using hybrid light field imaging, Optics Express, 2021, 29(23), 37336-37353.

[15] Wu Jun, Pan Zhixiang, Zhang Chenping, Song Fengcheng*, Zhang Xiaoyu, Guo Runxia. A non-axisymmetric temperature field reconstruction method based on the interferometric fringe schlieren method[J]. Measurement Science and Technology, 2023, 34(4): 044005.

[16] Wu Jun, Zhang Chenping, Pan Zhixiang, Zhang Xiaoyu, Guo Runxia. Precision compensation method for visual measurement based on non-uniform refractive index field reconstruction [J]. Applied Optics, 2023, 62(9): 2300-2309.

[17] Wu Jun, Liu Shaoyu, Wang Zirui, Zhang Xiaoyu, Guo Runxia. Dynamic Depth Estimation of Weakly Textured Objects Based on Light Field Speckle Projection and Adaptive Step Length of Optical Flow Method[J]. Measurement, 2023, 214: 112834.

[18] Wu Jun, Zhang Meimiao, Wang Haoshuang, Shan Tengfei, Zhang Xiaoyu, Guo Runxia, A stable and effective calibration method for defocused cameras using synthetic speckle patterns[J]. Measurement Science and Technology, 2023, 34(8): 085011.

[19] Wu Jun, Zhang Chenping, Pan Zhixiang, Guo Runxia, Zhang Xiaoyu, Chen Jiusheng. A precise compensation algorithm for visual measurement in non-uniform refractive index environment based on Hamiltonian ray tracing method[J]. Measurement, 2024, 226: 114205.

[20] Wu Jun, Pan Zhixiang, Zhang Chenping, Guo Runxia, Zhang Xiaoyu, Chen Jiusheng, An Axisymmetric Temperature Field Reconstruction Method Based on the Fan-Shaped Light Path Background Oriented Schlieren Method, IEEE Transactions on Instrumentation and Measurement, 2024, 73: 5008808

[21] Wu Jun, Pan Zhixiang, Zhang Chenping, Guo Runxia, Chen Jiusheng, A non-axisymmetric temperature field reconstruction method based on the compressive sensing background oriented Schlieren method[J]. Physics of Fluids, 2024, 36(3), 037118-1-11.

[22] Jun Wu, Haoshuang Wang, Tengfei Shan, Runxia Guo and Jiusheng Chen, An omnidirectional spatial monocular visual localization and tracking method for indoor unmanned aerial vehicles based on the two-axis rotary table[J], Measurement Science and Technology, 2024, 35: 066306.

[23] Jun Wu, Wang Zirui, Freely expandable visual measurement network for large scale space based on auto calibration method[J], Optical Engineering, 2024, 63(3), 034104.

[24] Wu Jun, Chen Yang, Guo Runxia, Chen Jiusheng, A dynamic turbine tip clearance measurement method based on laser self-mixing interferometric ranging considering Doppler effect, Measurement Science and Technology, 2024, 35(11), 115012.

[25] Wu Jun, Huang Shuo, Yuan Shaobo, Jin Long, Ruo Runxia, Chen Jiusheng, Three-dimensional contour detection method based on fusion of machine vision and laser radar, Measurement Science and Technology, 2024, 35(10), 105203.

[26] Wu Jun, Zhang Chenping, Pan Zhixiang, Zhang Zhen, Chen Jiusheng, Guo Runxia, Xing Zhiwei, Precision compensation method for large-scale measurements based on full-space refractive index field reconstruction with vibratory mirror background oriented schlieren (VMBOS), Optics Express, 2024, 32(25), 44551-44566.

[27] Wu Jun, Liu Yuting, Zhang Zhen, Guo Runxia, Liu Guihang, Xing Zhiwei. Simultaneous measurement of multi-physics parameters in laminar flames based on background-oriented schlieren[J]. Physics of Fluids, 2025, 37(1), 013606.

[28] Wu Jun, Zhang Zhen, Zhu Yuheng, Tang Yuanhong, Guo Runxia, Chen Jiusheng, Xing Zhiwei, An accurate temperature field reconstruction method using schlieren imaging and optical flow for high-speed flow fields[J]. Physics of Fluids, 2025, 37(1), 016117.

[29] Wu Jun, Zhang Yajing, Shan Tengfei, Xing Zhiwei, Chen Jiusheng, Guo Runxia. An additive feature fusion attention based on YOLO network for aircraft skin damage detection[J]. The Journal of Supercomputing, 2025, 81(4): 627.

●专利：

[1]吴军，于之靖，王志军,诸葛晶昌，一种航空发动机尾气粒子流场监测方法，专利号：201610283170.4，授权日：2018-02-27（已转化）

[2]吴军，王志军，马凯，于之靖，王涛，程彬彬，王科平，王嘉伟，一种航空发动机损伤叶片三维数字散斑造型方法，专利号：201611016718.5，授权日：2018-11-02

[3]诸葛晶昌，詹湘琳，吴军，张卫，一种红外多光谱残冰检测多幅成像环境差异消除装置，专利号：201610369840.4，授权日：2019-05-07

[4]吴军，徐鋆，冯成斌，徐海涛，李泽川，李鑫，李雁玲，宋丰成，采用激光多普勒频移的航空发动机叶尖间隙测量系统，专利号：201911182658.8，授权日：2021-2-5

[5]吴军，李鑫，李雁玲，王科平，一种基于蜂巢模型的飞机蒙皮小型损伤定位方法,专利号：201910300451.X，授权日：2021-08-13（已转化）

[6]吴军，李泽川，郭润夏，李鑫，李雁玲，徐鋆，一种全空间单目光笔式视觉测量方法[P]. 申请(专利)号：CN202010716079.3，申请日： 2020-07-23，授权公布号： CN111862238B，授权日：2022-05-10.

[7]王涛，李战，吴军，王盛，乔伟林，张立峰，一种航空发动机叶片修复的自适应定位方法，申请号：201811561325.1，授权日：2022-12-30.

[8]吴军,李泽川,郭润夏,徐鋆,李雁玲,李鑫. 一种采用互拍法的多目相机外部方位参数标定方法[P]. 申请(专利)号：CN202010131077.8, 申请日:2020.2.28,天津市：CN111415391B,2023-04-28.

[9]卢帅员;李阔;桂烨涵;吴东泽;石改琴;吴军;李鑫. 一种基于无人机视觉的飞机蒙皮损伤智能检测方法[P]. 申请日:2021.8.27, 申请(专利)号：CN202110995923.5，天津市：CN113744230A,2021-12-03，授权日：2023-09-05

[10]吴军;张美妙;郭润夏;李泽川;刘少禹;袁少博;祝玉恒.基于视觉与IMU融合的飞机蒙皮损伤无人机绕检定位方法[P].天津市:CN112712565A, 申请(专利)号：CN202011595863.X, 申请日2021-04-27，授权日：2024-03-01.