职称：教授/博导

办公室：汕头大学工东-408室

电话：0754-86502982

Email：lids@stu.edu.cn

个人主页：http://www.lidongsheng.net.cn/

https://eng.stu.edu.cn/info/1085/1901.htm

个人简介：

李东升，博士(德国)，教授，博士生导师，大连理工大学兼职教授，广东省结构安全与监测工程技术研究中心主任，汕头市海上风能重点实验室主任。

长期从事结构健康监测、损伤识别、荷载识别和结构动力学等的研究工作。提出了根据结构载荷实际情况布置传感器的基本理论，开发了可用于桥梁和结构工程的结构健康监测新方法和新技术；提出了风力发电机风轮叶片的模态局部化现象，在相关研究上获得了不少原创性的研究成果。在《中国科学》，AIAA Journal, Journal of Sound and Vibration, Mechanical System and Signal Processing, Structural Control and Health Monitoring, Engineering Structures, Smart Materials and Structures, Wind Energy等国际一流学术期刊上发表论文80余篇（SCI他引达2000余次），出版英文专著一部。研究成果收入国内结构健康监测领域的第一部行业标准《结构健康监测系统的设计标准》。

研究成果获教育部科技进步二等奖、华夏建设科技进步三等奖，辽宁省科技进步一等奖，辽宁省优秀教学成果一等奖,中国振动工程学会科学技术一等奖，国家技术发明奖二等奖, 美国试验力学学会德米西埃勒奖(D.J. DeMichele Scholarship Award)等奖项以及国家发明专利10余项。

目前的主要学术兼职有：Members for SEM (美国试验力学学会)，ISHMII（国际智能基础设施结构健康监测协会）会员，中国振动工程学会《模态分析与试验》专业委员会、《结构抗振控制与健康监测》两个专业委员会委员，中国力学学会会员，广东省力学学会理事，广东省振动工程学会常务理事等；国家自然科学基金通信评审专家，高等学校博士学科点专项科研基金评审专家，意大利教育部自然科学项目国际评审专家；国际学术期刊《Journal of Sound and Vibration》和国内学术期刊《中国科学》等多种重要学术期刊审稿人，国际学术期刊《Structural Durability & Health Monitoring》等三个学术期刊编委。

已成功指导硕、博士研究生26人；主讲本科生课程：理论力学、材料力学、结构力学，工程力学，建筑力学，以及研究生课程：结构动力学，结构健康监测，地震工程等。

教育经历：

[1] 2005.10 – 2007.09, 锡根大学(德国)机械工程系，博士，2011.12, 获博士学位(Universität Siegen, Doktor der Ingenieurwissenschaften)

[2] 1999.09 - 2002.07, 大连理工大学 工程力学系，硕士

[3] 1990.09 – 1994.07, 上海交通大学 机械工程系，学士

工作背景：

[1] 2018.05 - 今 汕头大学工学院 土木与智慧建设工程系，教授、博士生导师

[2] 2002.12 – 2018.04 大连理工大学 建设工程学部，讲师、副教授

[3] 2014.03 - 2015.02 University of Illinois at Chicago (美国)，访问学者

[4] 2005.08 - 2007.09 锡根大学(德国) 获德国政府学术交流基金(DAAD)资助 留学

科研项目：

[1] 国家自然科学基金面上项目，11220036，复杂变化环境下大跨桥梁基于协整和非线性模型修正的损伤识别，2021/01-2024/12，主持

[2] 国家自然科学基金面上项目，51778103，基于非线性瞬时模态与模态局部化的近海风机叶片损伤机理、识别与监测研究，2018/01-2021/12，主持

[3] 国家自然科学基金面上项目，51578107，基于动态Shannon熵的结构损伤识别与环境因素影响分离研究，2016/01-2019/12，主持

[4] 国家自然科学基金，健康监测中的光纤光栅应变传递机制和加速度传感器布置算法研究，2005/01-2007/12，主持

[5] 广东省自然科学基金项目，14162105，漂浮式风机基础刚柔耦合动力学及动态稳定（运动）机理研究，2021/01-2023/12，主持

[6] 国家自然科学基金面上项目，11572072，基于物理实验的多铰式单点系泊结构数值仿真方法研究，2016/01-2019/12，参加

[7] 国家重点基础研究发展计划（973计划），2015CB057704，特大跨桥梁安全性设计与评定的基础理论研究子课题：特大跨桥梁性能感知理论与方法，2015/01-2019/12，参加

[8] 教育部基本科研业务费专项项目，去除环境因素影响的结构损伤识别研究，2011/01-2012/12，主持

[9] 国家重点实验室项目，基于CMCM方法的海洋平台结构损伤识别研究， 2011/01-2012/12，主持

[10] 国家重点实验室项目，载荷识别中的传感器布设问题研究，2009/12-2011/12，主持

代表性论文：

[1] Guo, Peng, Li, Dong-sheng, Huang, Jie-zhong, Qiao, Hou, Li, Hong-nan, Damage Identification Using Nonlinear Manifold Learning Method under Changing Environments, Structural Control and Health Monitoring, 2024, 2359214.

[2] Meng S, Li D. Structural Damage Detection under Ambient Excitation Using Symbolic Three-Order Square Matrix Formed by Specific-Interval-Sampled Time-Domain Signals[J]. Sensors, 2024, 24(18): 5941.

[3] 李东升,魏达.基于稀疏约束的最小方差无偏自适应荷载估计[J].振动与冲击,2024,43(09):158-165.DOI:10.13465/j.cnki.jvs.2024.09.019.

[4] 黄杰忠, 元思杰, 李东升^*. 季节性环境影响下基于VMD-PCA-GPR方法的桥梁损伤识别[J].振动与冲击, 2024, 43(24): 332-342.

[5] D Wei, D Li*, T Jiang, P Lyu, X Song, Load identification of a 2.5 MW wind turbine tower using Kalman filtering techniques and BDS data. Engineering Structures, 281 (2023): 115763.

[6] D Wei, D Li*, E Cai, J Huang, X Guo, Structural damage identification with unknown external inputs based on the sparse constraint. Smart Materials and Structures (2023).

[7] 郭鹏,李东升,郭鑫. 基于博弈K均值聚类的模态参数自动识别算法[J].振动与冲击, 2023，42 (24): 92-100

[8] 李东升,涂靖,李炜. Spar型漂浮式风机断缆影响及运动稳定性研究[J].太阳能学报

[9] Zhang Y, Shi W, Li D, et al. A novel framework for modeling floating offshore wind turbines based on the vector form intrinsic finite element (VFIFE) method[J]. Ocean Engineering, 2022, 262: 112221.

[10] Da Wei, Li Dongsheng,Jiezhong Huang, Improved force identification with augmented Kalman filter based on on the sparse constraint , Mechanical Systems and Signal Processing, 2022,167, Part A: 108561. https://doi.org/10.1016/j.ymssp.2021.108561.

[11] Cai Enjian, Li Dongsheng, Jianyuan LIN, Hongnan Li, Bayesian-Inference Embedded Spline-Kerneled Chirplet Transform for Spectrum-Aware Motion Magnification, Sensors, Sensors 2022, 22, 2794. https://doi.org/10.3390/s22072794. Published: 6 April 2022.

[12] 郭鑫，李东升，魏达，张雨. 基于解析位移形函数的改进风力机叶片梁单元, 太阳能学报, 2022, 43 (4): 387-392.

[13] 李东升，高严培，郭鑫. 改进共旋坐标法的Timoshenko梁单元非线性分析, 工程力学, 2022,39(11):22-30.

[14] Tao Jiang, Dong-sheng Li, Hong-nan Li, Liang Ren, Jia-jian Wang,Zi-guang Jia,Experimental investigation of fiber Bragg grating hoop strain sensor–based method for sudden leakage monitoring of gas pipeline, STRUCTURAL HEALTH MONITORING-AN INTERNATIONAL JOURNAL, 10.1177/1475921720978619

[15] Xing Guo, Dong-Sheng Li, Peng Guo, Peter Kraemer, Mode localization in linear and periodically time-varying mistuned wind rotor, Wind Energy, 10.1002/we.2618

[16] 张皓, 李东升. 复分析Hilbert变换计算理论及非线性检测准则, 振动工程学报, 2021: 1-10.

[17] Li Dongsheng, Jiang Yaoguang, Li Hongnan, New Sensor Placement Method Based on Remodeling Innovation, AIAA Journal, 2020; 58(4): 1763–1771.

[18] Cai Enjian, Li Dongsheng, Li Hongnan, Xue Zhilin, Self-adapted optimization-based video magnification for revealing subtle changes, Integrated Computer-Aided Engineering, 2020; 27(2): 173–193.

[19] 张皓, 李东升, 李宏男, 一种新的非线性系统脊骨线提取方法, 振动与冲击, 2020; 39(04): 193-198.

[20] 张永鹏, 李东升, 郭鑫, 近海风机叶片模态局部化产生机理及定量分析研究, 计算力学学报, 2020; 37(1): 53-61.

[21] Zhang Hao, Li Dongsheng, Li Hongnan, A novel criterion for evaluation of stationarity in nonlinear structural dynamics, Journal of Aerospace Engineering, 2020; 33(4): 6020001.

[22] Huang Jiezhong, Li Dongsheng, Zhang Chun, Li Hongnan, Improved Karman filter damage detection approach based on lp regularization, Structural Control and Health Monitoring, 2019; 26(10): e2424.

[23] 张皓, 李东升, 李宏男, 有限元模型修正研究进展: 从线性到非线性, 力学进展, 2018; 49(1): 201909.

[24] 李东升, 李坤朋, 魏达, 不同截面杆件轴力识别的理论与试验验证, 振动工程学报, 2019; 32(1): 151-159.

[25] 李东升, 黄杰忠, 李宏男, 环境变化下基于核典型相关分析与协整的损伤识别研究, 中国公路学报, 2019; 32(11): 71-82.

[26] Li Dongsheng, Liang Yabin, Song Gangbing, Load Monitoring of the Pin-connected Structure based on Wavelet Packet Analysis Using Piezoceramic Transducers, Measurement, 2018; 122: 638-647.

[27] Liang Yabin, Feng Qian, Li Dongsheng, Loosening Monitoring of the Threaded Pipe Connection Using Time Reversal Technique and Piezoceramic Transducers, Sensors, 2018; 18(7): 2280.

[28] Liang Yabin, Li Dongsheng, Song Gangbing, Feng Qian, Frequency Co-integration-based damage detection for bridges under the influence of environmental temperature variation, Measurement, 2018; 125: 163–175.

[29] Huang Jiezhong, Li Dongsheng, Li Hongnan, Damage identification of a large cable-stayed bridge with novel cointegrated Kalman filter method under changing environments, Structural Control and Health Monitoring, 2018; 25(5): e2152.

[30] Jiang Tao, Ren Liang, Jia Ziguang,Li Dongsheng, Li Hongnan, Pipeline internal corrosion monitoring based on distributed strain measurement technique, Structural Control and Health Monitoring, 2017; 24(11): e2016.

[31] Dongsheng Li, Yong-qiang Yuan, Kun-peng Li and Hong-Nan Li, Experimental axial force identification based on modified Timoshenko beam theory, Structural Monitoring and Maintenance, 2017,4(2):153-173

[32] Dongsheng Li, Hong-Nan Li and Claus-Peter Fritzen, Comments on “Clustering of sensor Locations Using the Effective Independence Method, AIAA Journal, 2016,54(6) : 2010 -2011.

[33] Dongsheng Li, Siu-Chun M Ho, Gangbing Song, Liang Ren, and Hongnan Li, A review of damage detection methods for wind turbine blades, Smart Materials and Structures. 2015,24(3)033001,1-24.

[34] Zhao Zhan, Dongsheng Li, and Hongnan Li, A local damage detection approach based on restoring force method, Journal of Sound and Vibration, 2014,333(20): 4942–4959.

[35] Dongsheng Li, Y.B. Liang, H.N. Li, Comments on placement of sensors in operational modal analysis for truss bridges, Mechanical Systems and Signal Processing, 2013,35(1-2): 383–384.

[36] Yabin Liang, Dongsheng Li, Qingzhao Kong,Gangbing Song. Load monitoring of the pin-connected structure using time reversal technique and piezoceramic transducers – A feasibility study. IEEE Sensors Journal ,16(22): 7958-7966.

[37] Yabin Liang, Dongsheng Li, Seyed Mohammad Parvasi, Gangbing Song. Load monitoring of pin-connected structures using piezoelectric impedance measurement. Smart Materials and Structures, 25(10):105011.

[38] Yabin Liang, Dongsheng Li, Seyed Mohammad Parvasi, Qingzhao Kong,Ing Lim, Gangbing Song. Bond-slip detection of concrete-encased composite structure using electro-mechanical impedance technique. Smart Materials and Structures, 2016,25(9):095003.

[39] Hong-Nan Li, Liang Ren, Zi-Guang Jia, Ting-Hua Yi, Dongsheng Li, State-of-the-art in structural health monitoring of large and complex civil infrastructures, Journal of Civil Structural Health Monitoring,2016,6(1): 3-16.

[40] HongNan Li, TingHua Yi, Liang Ren, Dongsheng Li and Lin-Sheng Huo, Reviews on innovations and applications in structural health monitoring for infrastructures, Structural Monitoring and Maintenance, Vol. 1, No. 1 (2014) 001-045.

[41] Zhou Cui, Li Hong-nan, Dongsheng Li, Lin You-Xin. Online Damage Detection using Pair Cointegration of Time-varying Displacement Time Series. Smart Structures and Systems, 2013,12,(3-4):309-325.

[42] Dongsheng Li, L. Ren,H. N. Li, and G. B. Song, Structural Health Monitoring of a Tall Building during Construction with Fiber Bragg Grating Sensors, International Journal of Distributed Sensor Networks,2012,10(8),272190:1-10.

[43] Hong-Nan Li, Dongsheng Li, Liang Ren, Ting-Hua Yi , Zi-Guang Jia and Kun-Peng LI, Structural health monitoring of innovative civil engineering structures in Mainland China, Structural Monitoring and Maintenance, 2016,3(1): 1-32.

[44] Yabin Liang, Dongsheng Li, Gangbing Song, and Chao Zhan. Damage detection of shear buildings through structural mass-stiffness distribution. Smart Structures and Systems, 2017,19(1): 11-20.

[45] Tao Jiang, Liang Ren, Ziguang Jia, Dongsheng Li, Hongnan Li, Application of FBG based sensor in pipeline safety monitoring, Applied Sciences, 2017, 7(6), 540:1-12.

[46] Liang Ren,Tao Jiang, Dongsheng Li, Peng Zhang, Hong-nan Li, Gang-bing Song, A method of pipeline corrosion detection based on hoop-strain monitoring technology, Structural Control and Health Monitoring. 2017,24(6):e1931.

[47] 林楠, 李东升, 李宏男. 基于零初值的测试加速度积分速度与位移的方法, 中国科学：技术科学, 2016, 46(6) : 602-614.

[48] 王立岩, 李东升,李宏男，基于 HHT 的非线性振动系统参数识别研究, 工程力学, 2017, 34(1):28-33 44.

[49] 袁永强, 李东升,李宏男. 基于动力方法的改进杆件轴力识别, 大连理工大学学报, 2015,55(5)511-517.

[50] 李晓海, 李东升. 环境因素影响下基于辛几何谱分析法的结构损伤识别研究. 水利与建筑工程学报, 2016, 14(3): 154-176.

[51] 占超, 李东升, 任亮，李宏男. 基于改进交叉模型交叉模态法的局部损伤识别方法， 振动与冲击，2015,34(7) : 127-133.

[52] 周翠, 李东升, 李宏男. 结构模态测试传感器位置优选， 振动工程学报，2014,27(1): 84-90.

[53] 李东升, 周翠，杨新涛，李宏男，任亮，郭杏林. 结构损伤识别中部分相关噪声模型, 大连理工学学报，2014,54(4): 445-451.

[54] 梁亚斌, 李东升, 李宏男. 环境温度影响下基于频率协整的在线损伤识别， 大连理工学学报, 2014,54(3): 307-314.

[55] 梁亚斌, 李东升, 李宏男. 环境温度影响下基于结构连续位移曲率组合的损伤识别方法, 沈阳建筑大学学报, 2014(3) :399-407.

[56] Dongsheng Li, HongNan Li and Claus-Peter Fritzen, Load dependent sensor placement method: Theory and experimental validation, Mechanical Systems and Signal Processing, 2012,31(1): 217–227.

[57] Zi-guang Jia, Liang Ren, Dongsheng Li, Dan-dan Zhang, Hong-nan Li, Design and application of the ice force sensor based on fiber Bragg grating, Measurement, 2011,44(10): 2090-2095.

[58] Dongsheng Li, Hong-Nan Li and Claus-Peter Fritzen, A note on fast computation of effective independence through QR downdating for sensor placement, Mechanical Systems and Signal Processing, 2009,23(4):1160–1168.

[59] Hong-Nan Li, Guang-Dong Zhou, Liang Ren and Dongsheng Li(Corresponding Author), Strain transfer coefficient analyses for embedded fiber Bragg grating sensors in different host materials, ASCE’s Journal of Engineering Mechanics,2009,135(12), 1343-1353.

[60] 李东升,张莹, 任亮, 李宏男.结构健康监测中的传感器布置方法及评价准则, 力学进展, 2011,41(1): 39-50.

[61] 贾辉, 李东升 基于交叉模型交叉模态法的损伤识别研究, 土木工程与管理学报,2011,28(3):133-137.

[62] 任亮,张莹,李东升,刘君,李宏男,刘福海, FBG传感器在粘土心墙坝模型试验中的应用, 光电子.激光, 2011,22(8):1124-1129.

[63] 李东升,李宏男,王国新,任亮, 传感器布设中有效独立法的简捷快速算法, 防灾减灾工程学报，2009,29(1):103-108.

[64] 张丹丹,任亮,李东升,李宏男,柳春光,光纤光栅冰力传感器的开发及应用, 光电子.激光, 2010,21(3):349-353.

[65] D.S. Li, H.N.Li, and C.P.Fritzen, The connection between effective independence and modal kinetic energy methods for sensor placement, Journal of Sound and Vibration, 2007, (305): 945-955.

[66] Li, DS; Li, HN; Ren, L; Song, GB, Strain transferring analysis of fiber Bragg grating sensors, Optical Engineering, 2006, 45 (2): Art. No. 024402.

[67] Hong-Nan Li, Dong-Sheng Li and Gang-Bing Song, Recent applications of fiber optic sensors to health monitoring in civil engineering, Engineering Structures, 2004;26(11):1647-1657.

[68] Guo Xinglin, Li Dongsheng, Experiment Study of Structural Random Loading Identification by the Inverse Pseudo Excitation Method, Structural Engineering and Mechanics,2004; 18(6): 791-806.

[69] 李东升,李宏男. 埋入式封装的光纤光栅传感器应变传递分析, 力学学报, 2005, 37(4):435-441.

[70] 李东升,李宏男，郭杏林. 广义小量分解法在载荷识别中的应用， 振动与冲击, 2004,23(3):52-54.

[71] 李东升、郭杏林. 随机激励下的载荷谱识别， 大连理工大学学报，2003,(43)5:561-566.

[72] 李东升, 郭杏林.逆虚拟激励法随机载荷识别试验研究, 工程力学，2004, 21(2):134-139.

著作：

[1] Dongsheng Li, Liang Ren and Hongnan Li, "Mechanical Property and Strain Transferring Mechanism in Optical Fiber Sensors" in 《Fiber Optic Sensors》 (Chapter 18), ISBN: 978-953-307-922-6, Moh. Yasin, Sulaiman W. Harun and Hamzah Arof (Eds), Intech. Pp.439-458. Intech,2012.

[2] Dongsheng Li, Load Dependent Sensor Placement Method based on Representative Least Squares – applications in Structural Health Monitoring, (ISBN: 978-3-8440-0736-7), Shaker Verlag, Germany: Aachen, 2012.