2016.08-2021.05 伊利诺伊大学香槟分校(University of Illinois, Urbana-Champaign),博士,导师:Imad L. Al-Qadi(美国土木工程学会终身荣誉会士、国际铺面科学技术协会创始人兼首任主席)
2013.09-2016.06 西汉姆联官方网站,bw必威西汉姆联官方网站,硕士,导师:黄晓明
2009.09-2013.06 西汉姆联官方网站,bw必威西汉姆联官方网站,学士
2023.03-今 bw必威西汉姆联官方网站,副研究员(副教授)
2021.08-2022.12 香港理工大学,土木与环境工程学系,博士后研究员,合作导师:冷真
· 交通基础设施的无损检测和健康检测系统开发与应用;
· 基于探地雷达的道路桥梁无损检测和健康检测;
· 基于探地雷达的城市地下设施和塌陷检测系统开发;
· 智慧交通基础设施的感知、信息集成、决策系统开发与应用。
· 基于生成式大模型的公路路基突发性灾害预警技术与方法,国家重点研发计划子课题,2025.6-2028.5,主持
· 基于探地雷达的沥青道路隐蔽病害智能识别技术,2024年度科技部重点研发计划“战略性科技创新合作”重点专项,2025.9-2027.9,主持
· 空地一体电磁遥感的路面无人施工领航技术,教育部“海外引才”项目,2023.3-2026.3,主持
· 基于探地雷达电磁噪声压制机理的沥青层压实密度实时预测方法研究,国家自然科学基金青年基金项目,2025.1-2026.12,主持
· 基于探地雷达的沥青路面智能压实关键技术研究,企业合作项目,2024.8-2025.12,主持
· 基于探地雷达的沥青路面压实度连续快速检测模型研究,企业合作项目,2024.9-2025.12,主持
· 基于电磁无损检测技术的自动化沥青路面施工质量评价方法研究,高等公司院系联合基金,2024.6-2025.6,主持
· 西汉姆联官方网站科研启动基金,2023.6-2026.6,主持
· 基于探地雷达的城市道路塌陷预警和地下基础设施检测系统开发,香港建造业协会,2021.6-2022.6,结题,主要完成人;
· 基于探地雷达的沥青路面压实度实时控制技术研究,美国伊利诺伊州交通厅资助项目,2017.01-2020.12,结题,主要完成人;
· 基于探地雷达的地下目标快速定位技术研究,2017.08-2018.08,美国伊利诺伊大学厄巴纳-香槟分校科研基金,结题,主要完成人;
· 基于探地雷达的就地冷再生路面含水量评估技术研究,美国伊利诺伊州交通厅与联邦公路局共同资助项目,2020.05-2022.05,结题,主要完成人;
· 基于探地雷达的薄加铺层沥青路面厚度和密度评估技术研究,2016.08-2018.08,美国伊利诺伊州交通厅资助项目,结题,参与;
· 基于路表宏观纹理特征的沥青路面全周期抗滑性能研究,2013.06-2016.06,国家自然科学基金面上项目,参与。
1. 王飔奇,张奕翔,马涛,蔡明,曹亚东,程志强,杨茗淇,刘郭栋,谢胜加。一种用于车载探地雷达的减震臂和车辆(专利号:CN202411357450.6)。
2. 王飔奇,杨茗淇,马涛,张奕翔,刘郭栋,蔡明,程志强,谢胜加。一种基于阵列探地雷达的冷再生路面含水率测量方法(专利号:CN202410332029.3)。
3. 陈思宇,陈灿,韩诚嘉,马涛,王飔奇,崔培德。基于多特征融合深度学习网络的沥青路面级配检测方法(专利号:CN202310977341.3)。
4. 王飔奇,朱宇,马涛,张伟光,童峥。一种基于空气耦合探地雷达的土基压实度测量方法及装置(专利号:CN202310622113.4)。
5. 王飔奇,朱宇,马涛,张伟光,童峥,范剑伟。探地雷达检测车、其稳定机构及使用方法(专利号:CN202210956786.9)。
6. 王飔奇,马涛,朱宇,方周,韩涛,黄斯琦。一种基于探地雷达的沥青路面智能压实系统及方法(授权号:CN 114737448 B)。
7. 黄晓明,王飔奇,朱晟泽。结构内部排水的高等级宽幅路面及其施工方法(专利号:CN201510055115.5)。
8. 黄晓明,祝谭雍,王飔奇,马涛。一种沥青混合料半圆加载直剪试验装置及其试验方法(专利号:CN201410658834.1)。
9. 黄晓明,巩金芝,丁珣昊,刘修宇,曹青青,王飔奇,闫天昊。一种补给地下水的城市道路排水方法(专利号:CN201510886062.1)。
10. 黄晓明,丁珣昊,刘修宇,曹青青,巩金芝,王飔奇,闫天昊,彭龙。一种应对城市低洼处道路的快速排水路面结构。(专利号:CN201510883746.6)。
11. 黄晓明,刘修宇,曹青青,巩金芝,丁珣昊,闫天昊,王飔奇。一种基于透水路面的城市道路延时排水结构(专利号:CN201510885625.5)。
12. 黄晓明,曹青青,巩金芝,丁珣昊,刘修宇,闫天昊,王飔奇。一种防内涝补给地下水的路面系统(专利号:CN201510885511.0)。
冷真; 王飔奇; 基于探地雷达技术的沥青路面现场密度无损检测, 同济大学出版社, 2021
(近三年)
1. Jin, G., Wang, S.*, Cai, W., Zhang, Y., and Yang, M. (2025). Full-scale mapping of asphalt pavement compaction degree using GPR: A roller-mounted approach. Case Studies in Construction Materials. 22, e04828.
2. Wang, S.*, Ma, T., and Zhang, W. (2025). Statistical Characterization and Attenuation of Vibration Effect for Continuous Asphalt Pavement Survey Using Ground-Penetrating Radar. Automation in Construction. 173, 106057.
3. Lu, C., Cao, S., Wang, X., Jin, G., Wang, S., & Cai, W. (2025). OEM-HWNet: A Prior Knowledge-Guided Network for Pavement Interlayer Distress Detection Based on Computer Vision Using GPR. Remote Sensing, 17(9), 1554. https://doi.org/10.3390/rs1709155
4. Han, C., Han, T., Yang, S., Ma, T., Tong, Z., & Wang, S. (2025). Data-driven methods for data quality evaluation, maintenance assessment and decision model fusion in asphalt pavement management system. Road Materials and Pavement Design, 1–28. https://doi.org/10.1080/14680629.2025.2497060
5. Sui, X., Wang, S.*, Leng, Z.*, and Gong, M. (2025). In-Situ Density Measurement Using GPR Considering Random Pore Distribution of Asphalt Pavement. Measurement. 243: 116479.
6. Sui, X., Leng, Z.*, Wang, S., Cai, X., Gong, M., and Zhang, L. (2024). In-Situ Grouting Rate Prediction of Semi-Flexible Pavement Based on A Novel Composite Dielectric Constant Model and Ground-Penetrating Radar. Construction and Building Materials. 438, 137209.
7. Liu, Z., Wang, S., Gu, X.*, Wang, D., Dong, Q., and Cui, B. (2024). Intelligent Assessment of Pavement Structural Conditions: A Novel FeMViT Classification Network for GPR Images. IEEE Transactions on Intelligent Transportation Systems. 25(10): 13511-13523.
8. Sui, X., Leng, Z.*, Wang, S., Zhang, S. (2024) Removal of the GPR antenna vibration effect through height shifting correction for enhanced multi-layer asphalt pavement thickness determination. Automation in Construction, 161, 105335.
https://doi.org/10.1016/j.autcon.2024.105335.
9. Wang, S., Zhu, Z.*, Ma, T., and Fan, J. (2024). Asphalt Concrete Characterization Using Digital Image Correlation: A Systematic Review of Best Practices, Applications, and Future Vision. Journal of Testing and Evaluation. 52 (4): 35-41.
https://doi.org/10.1520/JTE20230485
10. 王飔奇*,冷真, 隋鑫, 张伟光, 朱俊清, 范剑伟. 基于探地雷达结构层厚度测量的钢桥沥青路面车辙评价[J]. 中国公路学报, 2023, 36(12): 22-33.
https://doi.org/10.19721/j.cnki.1001-7372.2023.12.00
11. Wang, S., Leng, Z., Sui, X., Zhang W., Ma T.*, and Zhu, Z. (2024). Real-time asphalt pavement layer thickness prediction using ground-penetrating radar based on a modified extended common mid-point (XCMP) approach. IEEE Transactions on Intelligent Transportation Systems. 25 (7): 6848 – 6860.
12. Chen, S., Chen, C., Ma, T., Han, C.*, Luo, H., Wang, S., ... & Yang, Y. (2023). Rapid extraction of pavement aggregate gradation based on point clouds using deep learning networks. Automation in Construction, 154, 105023.
13. Luan, Y., Wang, J., Ma, T.*, Wang, S., & Li, C. (2023). Modification mechanism of flue gas desulfurization gypsum on fly ash and ground granulated blast-furnace slag alkali-activated materials: Promoting green cementitious material. Construction and Building Materials, 396, 132400.
14. Sui, X., Leng, Z.*, & Wang, S. (2023). Machine learning based detection of transportation infrastructure internal defects using ground penetrating radar: a state-of-the-art review. Intelligent Transportation Infrastructure.
15. Wang, J., Ma, T.*, Luan, Y., Wang, S., & Zhang, Y. (2023). Investigation on the effects of desulfurization gypsum on the engineering properties of ternary geopolymers: Improving the utilization of industrial wastes. Journal of Cleaner Production, 137638.
https://doi.org/10.1016/j.jclepro.2023.137638
16. Han, C., Han, T., Ma, T.*, Tong, Z., & Wang, S. (2023). A BIM-based framework for road construction quality control and quality assurance. International Journal of Pavement Engineering, 24(1), 2209903.
https://doi.org/10.1080/10298436.2023.2209903
17. Sui, X., Wang, S., Leng, Z.*, Yang, B., & Lu, G. (2023). Clogging Evaluation of Porous Asphalt Pavement Using Ground-Penetrating Radar. Measurement, 112939.
https://doi.org/10.1016/j.measurement.2023.112939
18. Han, C., Han, T., Ma, T.*, Tong, Z., Wang, S., & Hei, T. (2023). End-to-end BIM-based optimization for dual-objective road alignment design with driving safety and construction cost efficiency. Automation in Construction, 151, 104884.
https://doi.org/10.1016/j.autcon.2023.104884
19. Ma, T, Wang, N., Han, C., Wang, S. and Tong, Z*. (2023). Asphalt pavement residual life assessment based on SmartRock sensors. IEEE Transactions on Instrumentation and Measurement, 72, 1-12.
https://doi.org/10.1109/TIM.2023.3267372.
20. 王大为, 吕浩天, 汤伏蛟*, 叶呈森, 张锋, 王飔奇, 倪耀威, 冷真, 陆国阳, 刘鹏飞. 三维探地雷达道路隐性病害检测分析与数字化技术综述[J]. 中国公路学报, 2023, 36(3): 1-19.
21. Wang, S., Leng, Z.*, and Sui, X. (2023). Detectability of concealed cracks in the asphalt pavement layer using air-coupled ground-penetrating radar. Measurement, 112427.(SCI, Q1, IF=5.131)
https://doi.org/10.1016/j.measurement.2022.112427
22. Tong, J., Ma, T.*, Wang, S., & Han, C. (2023). An improved multistage creep recovery test procedure for viscoelastic-plastic damage model calibration. Journal of Materials in Civil Engineering, 35(4), 04023043. (SCI, Q2, IF=3.651)
https://doi.org/10.1061/(ASCE)MT.1943-5533.0004701
23. Han, C., Tong, J., Ma, T.*, Tong, Z., and Wang, S. (2023) Rutting prediction model for semi-rigid base asphalt pavement based on a data-mechanistic dual driven method, International Journal of Pavement Engineering, 24:1. (SCI, Q2, IF=4.139).
https://doi.org/10.1080/10298436.2023.2173753
24. Wang, S., Leng, Z.*, Zhang, Z., and Sui, X. (2022). Automatic asphalt layer interface detection and thickness determination from ground-penetrating radar data. Construction and Building Materials, 357, 129434. (SCI, Q1, IF=7.693)
https://doi.org/10.1016/j.conbuildmat.2022.129434
25. Wang, S., Sui, X., Leng, Z.*, Jiang, J., & Lu, G. (2022). Asphalt pavement density measurement using non-destructive testing methods: current practices, challenges, and future vision. Construction and Building Materials, 344, 128154. (SCI, Q1, IF=7.693)
https://doi.org/10.1016/j.conbuildmat.2022.128154
26. Luan, Y., Ma, T.*, Wang, S., Ma, Y., Xu, G., & Wu, M. (2022). Investigating mechanical performance and interface characteristics of cold recycled mixture: Promoting sustainable utilization of reclaimed asphalt pavement. Journal of Cleaner Production, 369, 133366, (SCI, Q1, IF=11.072)
https://doi.org/10.1016/j.jclepro.2022.133366
27. Luo, S., Yao, J., Wang, S., Wang, Y., & Lu, G*. (2022). A sustainable BIM-based multidisciplinary framework for underground pipeline clash detection and analysis. Journal of Cleaner Production, 374, 133900, (SCI, Q1, IF=11.072)
https://doi.org/10.1016/j.jclepro.2022.133900
28. Wang, S.*, and Al-Qadi, I. L. (2021). Impact and removal of ground-penetrating radar vibration on continuous asphalt concrete pavement density prediction. IEEE Transactions on Geoscience and Remote Sensing. (SCI, Q1, IF=8.125)
https://doi.org/10.1109/TGRS.2021.3106041
2025年 | 交通运输工程学报(英文版)杰出审稿人 |
2024年 | 江苏省老员工创新大赛 二等奖 |
2023年 | 中国公路学会科学技术奖 |
2023年 | 中国商业联合会科学技术奖 |
2023年 | 美国路面科学技术协会(APSE)成就奖 |
2023年 | Journal of Transportation Engineering Part B: Pavement杰出评审专家 |
2023年 | 世界交通运输大会(WTC)杰出审稿人奖 |
2022年 | 香港理工大学特聘博士后研究员计划 |
道路工程基础
人工智能基础
人工智能导论
道路无损检测技术(硕博)
· 大会组委:4th International Workshop on Signal Processing Techniques for Ground Penetrating Radar Applications (SPT4GPRA 2024);
· 青年编委:《长安大学学报》(自然科学版)、《地质与勘探》、《道路工程学报》、《市政技术》;
· Smart Construction特刊(Intelligent Condition Assessment and Performance Prediction Towards Resilient and Sustainable Pavement Structure)编委;
· 交通运输工程学报-交通基础设施无损检测与评估特刊编委;
· 美国沥青路面科学技术协会(APSE)青年委员会委员;
· 国际华人基础设施工作者协会(IACIP)青年委员会委员;
· 世界交通运输大会(WTC)公路工程学部沥青路面学科功能性沥青及聚合物基路面技术委员会委员;智慧公路学科公路设施数字化运维技术委员会青年委员;
· Transportation Research Congress (TRC)青年委员会委员;
· 美国土木工程师协会(ASCE)、美国无损检测协会(ASNT)、国际电子电气工程师协会(IEEE)、欧洲地球科学联合会(EGU)会员;
· SCI学术期刊Surveys in Geophysics, IEEE Transactions on Geoscience and Remote Sensing, IEEE Transactions on Intelligent Transportation System, NDT&E International, Journal of Nondestructive Evaluation, Construction and Building Materials, Journal of Materials and Civil Engineering, Journal of Transportation Engineering, Part B: Pavements, International Journal of Pavement Engineering, Measurement等审稿人。
欢迎有志于投身智能化交通基础设施感知与运维技术、无损检测技术,在数据科学、信号处理、人工智能算法方面有相关背景和科研兴趣的同学报考硕士或博士研究生!
地址:江苏省南京市江宁区西汉姆联官方网站路2号bw必威西汉姆联官方网站
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