一、个人简历
唐樊龙,讲师,博士,主要研究领域为道路智能化施工与BIM建模技术,主持或参与横纵向科研项目8项,发表学术论文20余篇。
1、教学情况
主讲课程主要有:交通规划、交通工程制图、交通基础设施BIM、交通安全、城市道路智能交通管控案例分析
2、主要研究方向
目前主要从事低空交通领域的研究,包括低空交通规划与基础设施建设、低空交通服管与飞行器集群控制理论与方法;以及道路工程方向的智慧施工与巡检、道路工程BIM。
二、承担的科研课题及研究成果
【1】《城市低空交通应急响应与事故处理规范》,T/CAPS 060—2025,中国生产力学会团体标准,参与编制,2025年。
【2】高原地区公路施工质量与绿色环保智能提升技术研究,西藏科技厅,2025年3月-2027年3月,总经费,300万元,项目主要参与人。
三、学术成果
[1] 马涛,吴俊,唐樊龙,范剑伟,王宁. 基于多源数据与大模型的无人机巡航风险识别技术[J],交通运输工程学报,2025(通讯作者).
[2] F.L. Tang, J.W. Fan, T. Ma, Y.H. Sun, Study on the Performances of PAC-13 Asphalt Mixture Containing Reclaimed Porous Asphalt Pavement. Buildings, 2025,15,1395.
[3] F.L. Tang, T. Ma, J.H. Zhang, Y.S. Guan, L.F. Chen, Integrating three-dimensional road design and pavement structure analysis based on BIM. Automation in Construction. 2020,113.
[4] F.L. Tang, T. Ma, Y.S. Guan, Parametric modeling and structure verification of asphalt pavement based on BIM-ABAQUS, Automation in Construction. 2020, 111.
[5] F.L. Tang, C.J. Han, T. Ma, T. Chen, Quantitative analysis and visual presentation of segregation in asphalt mixture based on DIP and BIM technologies, Automation in Construction. 2021, 121.
[6] C.J. Hana,1, F.L. Tangb,1, T. Ma, L.H. Gu, Z. Tong, Construction quality evaluation of asphalt pavement based on BIM and GIS, Automation in Construction. 2022,141.
[7] F.L. Tang, S.C Zhu, G.J. Xu, T. Ma, L.D. Kong, L.Y. Kong, Influence by chemical constitution of aggregates on demulsification speed of emulsified asphalt based on UV-spectral analysis. Construction and Building Materials, 2019, 03(309).
[8] F.L. Tang, G.J. XU, T. Ma; L.Y. Kong. Study on the effect of demulsification speed of emulsified asphalt based on surface characteristics of aggregates. Materials, 2018, 11(9), 1488.
[9] T. Chen, T. Ma, X.M. Huang, F.L. Tang, et al., Microstructure of synthetic composite interfaces and verification of mixing order in cold-recycled asphalt emulsion mixture, Journal of Cleaner Production. 263 (2020).
[10] T. Chen, T. Ma, X.M. Huang, F.L. Tang, et al., The performance of hot-recycling asphalt binder containing crumb rubber modified asphalt based on physiochemical and rheological measurements, Construction and Building Materials, 2019, 30.
[11] Y.S. Jia, G.Q. Liu, Y. Gao, F.L. Tang, et al., Degradation reliability modeling of plain concrete for pavement under flexural fatigue loading, Advances in Concrete Construction, 9 (5) (2020) :469-478
[12] L. Xu, K.M. Fu, T Ma, F.L. Tang, J.W. Fan, Automatic Detection of Urban Pavement Distress and Dropped Objects with a Comprehensive Dataset Collected via Smartphone. Buildings, 2024,14,1546.
[13] Cheng H, Ma T, Tang F, et al. Space-Time Evolution of Temperature of Asphalt Mixture during Transportation[R]. SAE Technical Paper, 2025.
[14] Hu Y, Fan J, Tang F, et al. Intelligent Detection Technologies for Pre-Paving Asphalt Pavement[R]. SAE Technical Paper, 2025.
[15] 唐樊龙,徐霖,马涛,范剑伟,程浩. 荷载与温度耦合下的机场道面应力分析与配筋设计[J],英国威廉集团学报,2024,40(3):46-53.
[16] 马涛,汪思安,唐樊龙,范剑伟,王宁. 基于深度学习的无源无人机协同定位优化研究[J],公路科技与经济,2025.
[17] 程浩,孙引浩,唐樊龙,范剑伟,马涛. 运输过程中沥青混合料温度的时空演化研究[J],公路,2024.
[18] 孔令云,唐樊龙,徐燕,赵品晖,张玉贞. 紫外光谱法评价乳化沥青破乳过程[J],长安大学学报(自然科学版),2017,37(06).
[19] 孔令云,曹慧平,唐樊龙,沈鹃. 路用集料力学指标衰减规律及其相关性[J],重庆交通大学学报(自然科学版),2017,36(05).
[20] 孔令云,唐樊龙,徐燕. 不同岩性集料的抗滑耐磨性能及应用研究[J],公路,2016,61(12).
[21] 孔令云,唐樊龙, 徐燕,赵品晖. 集料酸碱性对乳化沥青破乳速度影响[J],公路交通科技,2016,33(10).
[22] 孔令云,李朝波,唐樊龙,徐燕,吴海鹰. 基于Logistics模型的离心电导率法评价乳化沥青破乳状态[J],公路交通技术,2019,35(03).
四、联系方式
Email: tangfanlong@jit.edu.cn