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  • 个人概况
  • 研究方向
  • 开授课程
  • 科研项目
  • 学术成果
  • 荣誉奖励
  • 风采展示
谭道远
  • 职称: 职称: 准聘副教授
  • 岗位: 仅研究系列选择
  • 联系电话:
  • 办公地址: 朱共山楼242
  • 电子邮件: dytan@nju.edu.cn
  • 课题组链接:

个人简介

开云足球俱乐部地球科学与工程学院副教授、特聘研究员、光电传感工程监测中心副主任,入选国家优秀青年科学基金(海外)和江苏省青年科技人才托举工程(建设领域),长期从事地质灾害防治、岩土工程智能监测与光纤传感技术研究。现任ISSMGE现场监测技术委员会(TC220)代表委员、ICGdR地灾风险评估与减轻技术委员会秘书长(TC-5)、AGHP泥石流与斜坡灾害防治委员会主席提名委员等学术职务,并担任《Scientific Reports》《Geotechnical and Geological Engineering》《地质科技通报》等期刊编委。主持国家自然科学基金、国家重点研发计划课题、江苏省自然科学基金、港澳台科技合作项目、香港特区重大技术攻关项目、优配研究金等多项科研任务。以第一或通讯作者在GRLJGGEJRMGELandslides 等期刊发表SCI论文五十余篇,获2025国际岩土优秀青年人才奖、2019香港工程师学会余錫萬优秀博士论文奖、2023 HKIE辉固奖等多项荣誉。

课题组长期与香港大学、香港理工大学、剑桥大学、意大利国家研究委员会、悉尼科技大学、麦吉尔大学等国际知名高校和科研院所保持交流与合作,优秀者可支持出国交流或推荐海外攻博!


欢迎各位对深地储能与滨海工程地质感知及灾害防控研究感兴趣的同学加入课题组,共同进步!

教育经历

20147

20194

博士,香港理工大学,岩土工程,土木与环境工程学系

20119

20146

硕士,中国地质大学(武汉),地质工程

20079

20116

学士,中国地质大学(武汉),岩土工程


工作经历

学术兼职

学术服务

l  SCI期刊《Scientific Reports编委

l  ESCI期刊《Geotechnical and Geological Engineering编委

l  中文核心期刊《地质科技通报》编委

l  EI检索期刊《应用基础与工程科学学报》青年编委

l  团体标准《边坡光电传感一体化监测技术规程》(已发布)编委

学术会籍

l   江苏省大地感知与控灾工程研究中心,秘书长

l   中国岩石力学与工程学会地质与岩土工程智能监测分会,常务副秘书长

l   国际地质灾害与减灾协会地灾风险评估与减轻技术委员会(TC-5, ICGdR),秘书长

l   国际土力学与岩土工程学会现场监测技术委员会(TC220, ISSMGE),代表委员

l   地质灾害专业人员学会-泥石流与斜坡灾害防治委员会(AGHP),主席提名委员

l   国际计算方法与岩土力学新进展学会(IACMAG),终身会员

l   香港岩土工程学会(HKGES),会员

l   中国岩石力学与工程学会,会员

l   国际土力学和岩土工程学会(ISSMGE),会员

l   欧洲地学联盟(EGU),会员




研究方向

方向一、地质灾害风险感知与防控技术方向

方向二、深海与深地岩土体变形与灾变机制方向

方向三、滨海地质工程智能感知与控灾


具体见学术成果一栏。

开授课程

地球科学力学基础

城市化与地质环境



科研项目

2026.01-2027.12

主持“海上风电桩基冲刷机理研究”,国家自然科学基金国际(地区)合作与交流项目“NSFC-RS(中英)”,W2521146,人民币15万元

2025.08-2027.08

主持“基于分布式传感网络的超长线性工程灾变演化机理与感知研究”课题,国家重点研发计划项目-政府间国际科技创新合作专项,2025YFE0109600,人民币130万元

2025.01-2027.12

主持“基于海床界面动态刻画的近海风电基础冲刷特征及致灾机理研究”,国家自然科学基金青年科学基金项目,42407250人民币30万元

2025.01-2027.12

主持近海风电设施冲刷灾害实时监测技术及预警方法研究”,BK20241211江苏省科技计划青年科学基金项目,人民币20万元


2024.01-2026.12主持国家高层次青年人才计划项目,人民币 200万元

2023.07-2025.12

主持开云足球俱乐部科研启动经费,人民币 200万元

2023.04-2026.03

主要参与江苏省港澳台科技合作项目,埋地化工管道泄漏感知与预警系统合作研发,人民币 120万元

2022.10-2025.09

主持香港特别行政区大学教育资助委员会-优配研究金,地下连续墙的性能评估:从导管浇筑过程到长期结构监测,港币 $1,097,600

2022.03-2023.12

主持澳门大学智慧城市物联网国家重点实验室开放课题,基于高精度分布式光纤传感技术的地下连续墙早期缺陷检测及长期风险监测智能方法研究,澳门币 $100,000

2021.04-2023.04

主持香港理工大学资助项目,研究助理教授启动基金运用分布式光纤技术开展钢筋混凝土裂缝探测和量化研究,港币 $250,000

2020.02-2021.01

主持香港特别行政区政府-发展局, 重大技术攻关项目Provision of Consultancy Services for Technical   Study on Application of Optical Fiber Sensing Technology in Monitoring of   Masonry Retaining Walls, Stonewall Trees and Large Trees,港币 $2,977,000


学术成果

1.Fang, K., Tan, D.-Y. #, Zhang, C.-C., Shi, S.-G., Sang, H.-W., & Shi, B. (2025). Nature-based profiling of subsurface soil stiffness driven by tidal forces. Geophysical Research Letters, e2025GL118702. https://doi.org/10.1029/2025GL118702

2.Wang, J., Zhu, H. H., Zhang, W., Tan, D. Y., & Pasuto, A. (2025). Enhancing landslide displacement prediction using a spatio‐temporal deep learning model with interpretable features. Journal of Geophysical Research: Machine Learning and Computation2(3), e2025JH000592.

3.Tan D. Y.#, Tang Z. Y., Yan Z. R.,  Yuan Z. G., Duan H. F., Shi B., Zhu H. H. (2025), Real-time monitoring of water states in large-diameter aqueducts – learning from distributed acoustic sensing signals, Communications Engineering.

4.Fang, K., Sun, M. Y., Tan, D. Y. #, Sang, H., Zhang, B., & Shi, B. (2025). Profiling of soil–water–air interface in aquatic beds using actively heated distributed fiber optic sensing technology. Journal of Hydrology, 133757.

5.Han, H., Shi, B., Zha, F., Wei, G., Meng, Z., & Tan, D. (2025). A local scour self-sensing method for offshore wind power monopile based on ultra-weak Fiber Bragg Grating. Ocean Engineering334, 121606.

6.Yan, D., Zhang, S., Tan, D., Xu, L., Liu, C., & Zhu, H. (2025). Vane shear mechanism in soil by particle image velocimetry and discrete-element simulation. Proceedings of the Institution of Civil Engineers-Geotechnical Engineering, 1-17.

7.Zhang, S. Q., Tan D.Y.#, Zhu H.H., Pei H.F., and Zhou. C. 2025. Estimating spatial and temporal water distribution in capillary rise zone of coarse-grained soils based on grain size distribution and unsaturated hydraulic conductivity. Canadian Geotechnical Journal. 62: 1-16. https://doi.org/10.1139/cgj-2024-0473

8.Zhao, S., Tan D.Y.#, Wang, J., & Yin, J. H. (2025). Deep learning-based adaptive denoising method for prediction of crack opening displacement of rock from noisy strain data. International Journal of Rock Mechanics and Mining Sciences, 190, 106112.

9.Zhao, S., Mu, D. R., & Tan, D. Y. (2025). A deep learning-based adaptive denoising approach for fine identification of rock microcracks from noisy strain data. Engineering Applications of Artificial Intelligence, 148, 110471.

10.Zhang, S., Tan D.Y.#, Zhu, H., & Zhang, W. (2025). Molecular dynamic simulations on the hydrogen wettability of caprock: Considering effects of mineralogy, pressure, temperature and salinity. International Journal of Hydrogen Energy, 109, 367-382.

11.Tian, F., Zhang, W., Zhu, H. H., Wang, C., Chang, F. N., Li, H. Z., & Tan D.Y.# (2025). Multi-temporal InSAR-based landslide dynamic susceptibility mapping of Fengjie County, Three Gorges Reservoir Area, China. Journal of Rock Mechanics and Geotechnical Engineering.

12.Zhang, S., Tan, D.#, Zhu, H., & Zhou, C. (2025). Estimating family of soil–water characteristic curves for sandy soils from unimodal grain size distribution and void ratio. Journal of Hydrology, 132671.

13.Zhang, S., Pei, H., Plötze, M., Zhang, C., Tan D.Y.# (2024). Investigation of Bound Water in Clay Based on Isothermal Adsorption Experiments and Metadynamics Studies from the Perspective of Water Potential. Journal of Geotechnical and Geoenvironmental Engineering, 150(11), 04024113.

14.Wang, J., Wang, D., Zhu, H. H., Guo, Z., Yan, D., & Tan D.Y.# (2024). Subsurface multi-physical monitoring of urban development zone using a fiber optic nerve system. Journal of Rock Mechanics and Geotechnical Engineering.

15.Wang, D. Y., Zhu, H. H., Zhang, X. H., Huang, J. W., Yan, Z. R., Tan, D. Y., & Lin, S. Q. (2024). Structural behavior of triple-layer composite lining of a water conveyance tunnel: Insight from full-scale loading tests. Journal of Rock Mechanics and Geotechnical Engineering.

16.Zhao, S., Lin S.Q., Tan D.Y.#, Zhu H.H., Yin Z.Y., Yin J.H. (2024). Smart prediction of crack opening displacement of rock from noisy distributed fibre optic sensing data. Journal of Rock Mechanics and Geotechnical Engineering. https://doi.org/10.1016/j.jrmge.2024.09.009.

17.Zhang S.Q., Tan D.Y.#, Zhu H.H., Pei H.F., Shi B. (2024). Rheological behaviors of Na-montmorillonite considering particle interactions: A molecular dynamics study. Journal of Rock Mechanics and Geotechnical Engineering.https://doi.org/10.1016/j.jrmge.2024.07.003.

18.Zhao, S., Wang, F. Y., Tan, D. Y., Yang, A. W. (2024). A deep learning informed-mesoscale cohesive numerical model for investigating the mechanical behavior of shield tunnels with crack damage,Structures, 66, 106902, 10.1016/j.istruc.2024.106902.

19.Liu, K., Chen, W. B., Feng, W. Q., Tan, D. Y., Zhou, C., & Yin, J. H. (2024). Variation of Secant Young’s Modulus in an Unsaturated Gap-Graded Granular Fill. Transportation Geotechnics, 49, 101416.

20.Lin, S. Q., Ye, H. J., Tan, D. Y. #, Wang, J., Yin, J. H. 2024 Experimental interpretation and support vector machine classification of distributed fibre optic strain spikes. Journal of Rock Mechanics and Geotechnical Engineering, 10.1016/j.jrmge.2024.03.025.

21.Wang, J., Lin, S. Q., Tan, D. Y. #, Yin, J. H., Zhu, H. H., Kuok, S., C. 2024 A Novel Method for Integrity Assessment of Soil-Nailing Works with Actively Heated Fiber Optic Sensors, Journal of Geotechnical and Geoenvironmental Engineering, 150(8), 04024063.

22.Xie, T. C., Zhu, H. H., Tan, D. Y., Shukla, S. K. (2024). Modeling pipe-soil interaction under surface loading using material point method. Tunnelling and Underground Space Technology, 147, 105709.

23.Liu, K., He, H. T., Tan, D. Y. #, Feng, W. Q., Zhu, H. H., Yin, J. H. (2024). A Case Study of Performance Comparison Between Vacuum Preloading and Fill Surcharge for Soft Ground Improvement. International Journal of Geosynthetics and Ground Engineering, 10(1), 1-23.

24.Wang, D. Y., Zhu, H. H., Wu, B., Ye, X., Wang, J., Tan, D. Y. #, Shi, B. (2024). Performance evaluation of underground pipelines subjected to landslide thrust with fiber optic strain sensing nerves. Acta Geotechnica, 1-17.

25.Xie, T. C., Zhu, H. H., Zhang, C. X., Liu, W., Tan, D. Y., Zhang, W. (2024). Modeling Pipe–Soil Interaction under Lateral Movement Using Material Point Method. Journal of Pipeline Systems Engineering and Practice, 15(1), 04023058.

26.Lin, S. Q., Tan, D. Y.#, Yin, J. H., Zhu, H. H., Kong, Y. (2023). Distributed Fiber Optic Sensing for Micro- and Macro-Crack Quantification: An Interfacial-fracture-energy-based Model, Structural Health Monitoring, 14759217231215482.

27.Lin, S. Q., Tan, D. Y.#, Leung, Y. F., Yin, J. H., Li, I., Sze, E. H., ... Chan, E. Y. (2023). Fiber-Optic Monitoring of a Twin Circular Shaft Excavation: Development of Circumferential Forces and Bending Moments in Diaphragm Walls. Journal of Geotechnical and Geoenvironmental Engineering, 149(12), 04023117.

28.Zhao, S., Tan, D.#, Lin, S., Yin, Z., Yin, J. (2023). A deep learning-based approach with anti-noise ability for identification of rock microcracks using distributed fibre optic sensing data. International Journal of Rock Mechanics and Mining Sciences, 170, DOI: 10552510.1016/j.ijrmms.2023.105525.

29.Zhao, S., Zhang G. K., Zhang D. M., Tan, D. Y.#, Huang, H. W. (2023). A hybrid attention deep learning network for refined segmentation of cracks from shield tunnel lining images. Journal of Rock Mechanics and Geotechnical Engineering. DOI: 10.1016/j.jrmge.2023.02.025.

30.Wang, J., Zhu, H. H., Tan, D. Y., Li, Z. L., Li, J., Wei, C., Shi, B. (2023). Thermal integrity profiling of cast-in-situ piles in sand using distributed fiber optic temperature sensing. Journal of Rock Mechanics and Geotechnical Engineering DOI: 10.1016/j.jrmge.2023.02.025.

31.Li, H. J., Zhu, H. H., Tan, D. Y., Shi, B., Yin, J. H. (2023). Detecting pipeline leakage using active distributed temperature Sensing: Theoretical modeling and experimental verification. Tunnelling and Underground Space Technology, 135, 105065.DOI: 10.1016/j.tust.2023.105065

32.Wu, P. C., Tan, D. Y. #, Lin, S. Q., Chen, W. B., Yin, J. H., MALIK N., LI, A. (2022). Development of a Monitoring and Warning System Based on Optical Fiber Sensing Technology for Masonry Retaining Walls and Trees. Journal of Rock Mechanics and Geotechnical Engineering, 14(4), 1064-1076 DOI: 10.1016/j.jrmge.2021.09.013. (Cover Paper)

33.Lin, S. Q., Tan, D. Y. #, Yin, J. H., LI, H. (2021). A Novel Approach to Surface Strain Measurement for Cylindrical Rock Specimens under Uniaxial Compression Using Distributed Fibre Optic Sensor Technology. Rock Mechanics and Rock Engineering,54(12), 6605-6619.

34.Wu, P. C., Tan, D. Y.#, Chen, W. B., MALIK N., Yin, J. H. (2021). Novel fiber Bragg Grating-based strain gauges for monitoring dynamic responses of Celtis sinensis under typhoon conditions. Measurement, 172, 108966. DOI: 10.1016/j.measurement.2021.108966

35.Tan, D. Y., Yin, J. H., Feng, W. Q., Qin, J. Q., Zhu, Z. H. (2020). New simple method for measuring impact force on a flexible barrier from rockfall and debris flow based on large-scale flume tests. Engineering Geology, 105881.

36.Tan, D. Y., Feng, W. Q., Yin, J. H., Zhu, Z. H., Qin, J. Q. (2020) Numerical study of retention efficiency of a flexible barrier in mitigating granular flow comparing with large-scale physical modeling test data. Acta Geotechnica.

37.Tan, D. Y., Yin, J. H., Qin, J. Q., Zhu, Z. H., Feng, W. Q. (2020). Experimental study on impact and deposition behaviours of multiple surges of channelized debris flow on a flexible barrier. Landslides, 17(7), 1577-1589.

38.Tan, D. Y., Yin, J. H., Zhu, Z. H., Qin, J. Q., Chan, H. C. M. (2020). Fast Door-Opening Method for Quick Release of Rock Boulder or Debris in Large-Scale Physical Model. International Journal of Geomechanics, 20(2), 06019019.

39.Feng, W.Q., Tan D.Y#., Yin, J.H., Qin, J. Q., Chen W.B. (2020) Experimental and Numerical Studies on Hong Kong Marine Deposits Improved by a Stone Column and a Sand Compaction Pile. International Journal of Geomechanics.

40.Zhu, Z. H., Yin, J. H., Ouyang, C. J., Tan, D. Y., Qin, J. Q. (2020). Modeling a Flexible Ring Net with the Discrete Element Method. Journal of Engineering Mechanics, 146(2), 04019120.

41.Feng, W. Q., Yin, J. H., Chen, W. B., Tan, D. Y., Wu, P. C. (2020). A new simplified method for calculating consolidation settlement of multi-layer soft soils with creep under multi-stage ramp loading. Engineering Geology, 264, 105322.

42.Qin, J. Q., Yin, J. H., Zhu, Z. H., Tan, D. Y. (2020). Development and application of new FBG mini tension link transducers for monitoring dynamic response of a flexible barrier under impact loads. Measurement, 153, 107409.

43.Tan, D. Y., Yin, J. H., Feng, W. Q., Zhu, Z. H., Qin, J. Q. Chen W.B. (2019). New Simple Method for Calculating Impact Force on Flexible Barrier Considering Partial Muddy Debris Flow Passing Through. Journal of Geotechnical and Geoenvironmental Engineering, 145(9), 04019051. DOI: 10.1061/(ASCE)GT.1943-5606.0002133.

44.Zhu, Z. H., Yin, J. H., Qin, J. Q., Tan, D. Y. (2019). A new discrete element model for simulating a flexible ring net barrier under rockfall impact comparing with large-scale physical model test data. Computers and Geotechnics, 116, 103208.

45.Feng, W. Q., Zheng, X. C., Yin, J. H., Chen, W. B., Tan, D. Y. (2019). Case study on long-term ground settlement of reclamation project on clay deposits in Nansha of China. Marine Georesources & Geotechnology, 1-16.

46.Tan, D. Y., Yin, J. H., Feng, W. Q., Qin, J. Q., Zhu, Z. H. (2018). Large-scale physical modelling study of a flexible barrier under the impact of granular flows. Natural Hazards and Earth System Sciences, 18, 2625-2640, DOI: 10.1007/s10346-020-01378-7.

47.Tan, D. Y., Yin, J. H., Qin, J. Q., Zhu, Z. H., Feng, W. Q. (2018). Large-scale physical modeling study on the interaction between rockfall and flexible barrier. Landslides, 15, 12, 2487–2497.

48.程琛;唐振宇;谭道远;王静;于洋;朱鸿鹄;苏晶文, (2025), 基于分布式声波传感的潮汐作用下海浪冲击规律研究, 地质科技通报,doi: 10.19509/j.cnki.dzkq.tb20250015.

49.张思奇, 裴华富, 谭道远, 朱鸿鹄. (2024). , 双孔隙结构非饱和黏土孔隙分布变化规律试验研究. 岩土力学, 45(2), 353-363.


荣誉奖励

l  2025年国际岩土优秀青年人才奖(国内唯二)

l  2024中国国际大学生创新大赛全国银奖(第一指导教师)

l  2024江苏省大学生创新大赛“优秀指导教师”

l  2023辉固奖,香港工程师学会

l  2020“余錫萬”2019年度最佳博士论文奖(岩土工程),香港工程师学会


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