宋晓东 - 东南大学

个人简介

宋晓东，副教授，博导，桥梁工程系主任。长大桥梁安全长寿与健康运维全国重点实验室长寿设计研究所副所长，东南大学桥梁研究中心桥梁新型材料及结构体系研究室副主任。入选东南大学“至善学者”人才计划，公路交通运输科技成果转化联盟专家委员会委员，WTC轨道交通运行安全与环境学科-轨道交通系统振动与噪声控制委员会委，南京现代综合交通实验室“双聘副研究员”，Belgian Young Acousticians Network成员，《铁道科学与工程学报》、《华东交通大学学报》等期刊青年编委，Engineering Structures、Mechanical Systems and Signal Processing、Journal of Sound and Vibration、Structural Health Monitoring 、Construction and Building Materials、Applied Ocean Research（2018年获杰出审稿人奖）等30多个期刊审稿人。获全国大学生交通运输科技大赛二等奖（指导老师，2025），“交通杯”全国大学生仿真大赛特等奖（指导老师，2024），江苏省高校微课教学比赛二等奖(2021、2022)、第四届江苏省高校教师教学创新大赛特等奖(2024)、第四届全国高校教师教学创新大赛二等奖(2024)、第二届卓越大学联盟高校青年教师教学创新大赛三等奖(2018)等教学奖项，获江苏省科学技术奖、公路学会科学技术奖、交通运输协会科技进步奖、华夏建设科学技术奖等省部级科技奖励8项。教育背景 2005/09-2009/06 ，同济大学，土木工程学院，工学学士 2009/09-2015/05 ，同济大学，土木学院桥梁与隧道工程系，工学博士 2013/09-2014/09 ，比利时根特大学，信息技术学院声学组，博士联合培养工作经历 2015/05-2018/03 ，讲师，桥梁工程系，交通学院，东南大学 2018/04 至今，副教授 ( 破格 ) ，桥梁工程系，交通学院，东南大学

研究领域

桥梁 / 隧道振动噪声控制桥梁智能监测与智慧运维桥梁 BIM 工程技术应用

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. Gong X Y, Song X D * , Zhu Y C, Feng L b, Lu X, Cai C S. A two-stage temperature driven method for detection of fault sensors and abnormal stress using structural health monitoring data [J]. Structural Health Monitoring, 2025. 2. Zhou H L, Song X D * , Huang Y. Reconstruction of vibration noise in plate structures based on Data-Physics driven model and transfer learning [J]. Journal of the Acoustical Society of America, 2025, 157: 579–594. 3. Gong X Y, Song X D * , Cai C S, Li G Q, Xiong W. Early warning for abnormal strains of continuous bridges using a proposed temperature-strain mapping model [J]. Smart Materials and Structures, 2023,32:125018. 4. Cheng X H, Song X D*, Li G Q. Noise generation and contribution of a single-gap bridge expansion joint: An experimental and numerical study [J]. Applied Acoustics, 2025, 229: 110387. 5. Gong X Y, Song X D * , Li G Q, Xiong W, Cai C S. Deep learning based anomaly identification of temperature effects in bridge structural health monitoring data [J]. Structures, 2024, 69: 107478 . 6. Song X D * , Wu H, Jin H, Cai C S. Noise contribution analysis of a U-shaped girder bridge with consideration of frequency dependent stiffness of rail fasteners [J]. Applied Acoustics, 2023, 205: 109280. 7. Gong X Y, Song X D * , Cai C S, Li G Q, Xiong W. A temperature-driven approach for quantitative assessment of strengthening effect of continuous bridges using structural health monitoring data [J]. Structural Health Monitoring , 2024,23(2):1053-1070. 8. Zhou H L, Song X D * , Xiong W, Wu H, Li Q, Cai C S. V ibration and underwater noise simulation of a river-crossing tunnel based on a 2.5D structural-acoustic finite element method [J]. Structures, 2024,64:106502. 9. Song X D * , Lu W, Xiong W, Cai C S. Sound contribution of the low frequency underwater noise radiated from a suspension bridge [J]. J ournal of Low Frequency Noise, Vibration and Active Control , 2024,43(1): 3-19. 10. Song X D * , Yin L M, Xiong W, Wu H, Cai C S. Underwater noise prediction and control of a cross‑river subway tunnel: an experimental and numerical study [J]. International Journal of Environmental Science and Technology , 2024,21:4045-4062. 11. Song X D , Wu H, Xiong W * , Cai C S. Numerical investigation of vibration and noise radiation of a water supply pipeline [J]. Environmental Science and Pollution Research , 2022, 29: 51489-51506. 12. Song X D * , Gong X Y, Li G Q, Xiong W, Cai C S. Continuous monitoring of in-service performance of prestressed concrete continuous bridges with two strengthening measures [J]. Construction and Building Materials , 2022 , 321: 126311. 13. Song X D * , Huang Y L, Huang Q, Zheng H K. Fatigue behavior of GFRP-concrete composite decks: An experimental and numerical study [J]. Structural Engineering and Mechanics, 2021, 80(3): 301-312. 14. Song X D * , Zhang X G, Xiong W, Guo Z M, Wang B. Experimental and numerical study on underwater noise radiation from an underwater tunnel [J]. Environmental Pollution , 2020, 267: 115536. 15. Song X D * , Li Q. Reconstruction of low-frequency bridge noise using an inverse modal acoustic transfer vector method [J]. Journal of Low Frequency Noise, Vibration and Active Control , 2019,38(2): 224-243. 16. Song X D * , Li Q. Numerical and experimental study on noise reduction of concrete LRT bridges[J]. Science of the Total Environment , 2018, 643:208-224. 17. Song X D * , Li Q, Wu D J. Prediction of rail and bridge noise in near- and far-field: A combined 2.5-dimensional and two-dimensional method [J]. Journal of Vibration and Acoustics (ASME), 2017, 139(1): 011007-1-011007-10. 18. Song X D , Wu D J, Li Q * , Botteldooren D. Structure-borne low-frequency noise from multi-span bridges: A prediction method and spatial distribution[J]. Journal of Sound and Vibration, 2016, 367: 114-128. 19. Song X D * , Li Q, Wu D J. Investigation of rail noise and bridge noise using a combined 3D dynamic model and 2.5D acoustic model [J]. Applied Acoustics , 2016, 109: 5-17. 20. Li Q, Li W Q, Wu D J, Song X D * . A combined power flow and infinite element approach to the simulation of medium-frequency noise radiated from bridges and rails[J]. Journal of Sound and Vibration, 2016, 365:134-156. 21. Song X D , Wu D J, Li Q*. Dynamic impact analysis of double-tower cable-stayed maglev bridges using a simple model [J]. Journal of Bridge Engineering , 2014, 19(1): 34-43. 22. Li Q, Song X D * , Wu D J. A 2.5-dimensional method for the prediction of structure-borne low-frequency noise from concrete rail transit bridges [J]. Journal of the Acoustical Society of America , 2014, 135(5): 2718-2726. 23. Tong Z J, Song X D , Huang Q * . Experimental and theoretical study on the flexural performance of GFRP-concrete-steel composite beams[J]. KSCE Journal of Civil Engineering, 2019, 23: 3397-3408. 24. Tong Z J, Song X D , Huang Q * . Deflection calculation method on GFRP-concrete-steel composite beam [J]. Steel and Composite Structures, 2018, 26(5): 595-606. 25. Zhu Y C * , Xiong W, Song X D . Structural performance assessment considering both observed and latent environmental and operational conditions: A Gaussian process and probability principal component analysis method [J]. Structural Health Monitoring, 2022, 21(6):2531-2546. 26. Tong ZJ, Chen Y Y, Huang Q, Song X D , Luo B Q, Xu X. Experimental and analytical study on continuous GFRP-concrete decks with steel bars[J]. Structural Engineering and Mechanics, 2020, 76(6): 737-749. 27. Wang W G, Song X D * , Yu Y, Chang H C, Yu W X, Xiong W. Extraction and evaluation of cable forces of a cable‑stayed bridge based on amplitude and phase estimation method[J]. Advances in Bridge Engineering, 2024, 5:15. 28. 宋晓东 * , 崔珊珊 , 熊文 , 吴阅 . 基于健康监测的斜拉桥恒载索力提取与评估 [J]. 东南大学学报 ( 自然科学版 ), 2020, 50(6): 1102-1108. 29. 宋晓东 * ，李奇 . 轨道交通混凝土 U 梁减振降噪措施数值分析 [J]. 东南大学学报 ( 自然科学版 ) ， 2019, 49(3): 460-466. 30. 宋晓东 * , 李奇 , 吴定俊 . 轨道交通混凝土桥梁中低频噪声预测方法 [J]. 铁道学报， 2018, 40(3): 126-131. 31. 宋晓东 * , 石宇，李奇 . 基于频域和时域振动模型的轨道交通桥梁噪声预测对比分析 [J]. 振动工程学报， 2018 ， 31(3): 427-434. 32. 宋晓东 * , 李奇 , 吴定俊 . 多跨简支梁桥低频噪声预测及空间分布研究 [J]. 工程力学， 2017, 34(03): 22-28. 33. 宋晓东 * ，李奇，吴定俊 . 一种轨道交通高架线路噪声衰减规律的预测方法 [J]. 东南大学学报 ( 自然科学版 ) ， 2017, 47(5): 1055-1061. 34. 宋晓东 , 吴定俊 , 李奇 * . 基于无限元的 2.5 维方法预测轨道交通混凝土桥梁低频噪声，振动工程学报， 2015 ， 28 (06) ： 929-936. 35. 宋晓东 , 吴定俊 , 李奇 * . 移动均布荷载作用下弹性支撑简支梁动力系数变化规律研究 , 工程力学 , 2013, 30(04): 281-287.

学术兼职

1. 长大桥梁安全长寿与健康运维全国重点实验室长寿设计研究所副所长 2. 东南大学桥梁研究中心桥梁新型材料及结构体系研究室副主任 3. WTC 轨道交通运行安全与环境学科 - 轨道交通系统振动与噪声控制委员会委员 4. 南京现代综合交通实验室双聘副研究员 5. 公路交通运输科技成果转化联盟专家委员会委员 6. 《铁道科学与工程学报》、《华东交通大学学报》、《交通科学与工程学报》等期刊青年编委 7. Engineering Structures 、 Mechanical System and Signal Processing 、 Journal of Sound and Vibration 等 30 多个期刊审稿人