教师名录

周晗旭，男，博士，出生于1996年3月，上海交通大学船建学院助理研究员

2024-07至今，上海交通大学，船舶海洋与建筑工程学院土木工程系，助理研究员；

2018-09至2024-06，上海交通大学，船舶海洋与建筑工程学院土木工程系，博士（硕博连读）；

2014-09至2018-06，上海大学，土木工程系，学士.

岩土体损伤演化过程的电参数表征方法；

岩土与地下工程智能检测方法；

隧道工程长期安全性评价.

欢迎有攻读硕士研究生意向的同学联系咨询，有意者请发送个人简历至邮箱 zhx1234@sjtu.edu.cn

担任岩土工程领域Bulletin of Engineering Geology and the Environment, Shock and Vibration等国际SCI期刊审稿人

[1]  国家自然科学基金青年C类项目，42502258，渐进式失稳边坡的损伤状态电参数表征及其稳定性智能预测，2026年-01至2028-12，在研，主持。

[2]    上海市科学技术委员会青年基金，25ZR1402285，渐进式失稳边坡的损伤状态电参数表征及其稳定性智能预测，2025-07至2025-06，在研，主持。

[3]  横向项目，岩石微波辐射破坏机理与辅助机械破岩方法研究，2025-04-30至2026-12-31，在研，主持。

[4]  横向项目，水体影响下多年冻土区渠道水热力过程数值模拟研究，2024-10-30至2026-09-30，在研，主持。

[1]     Zhou H X, Che A L*, Shuai X H, Cao Y B. (2024) Seismic vulnerability assessment model of civil structure using machine learning algorithms: a case study of the 2014 Ms6.5 Ludian earthquake[J]. Natural Hazards, 120, 6481-6508. 

[2]     Zhou H X, Che A L*, Chen J C, Yuan G L. (2023) Study on structural damage evolution of excavated slope subjected to earthquake and rainfall using electrical resistivity measurement. Soil Dynamics and Earthquake Engineering, 170, 107908. 

[3]     Zhou H X, Che A L*, Shuai X H, Zhang Y. (2023) A spatial evaluation method for earthquake disaster using optimized BP neural network model. Geomatics Natural Hazards and Risk, 14(1), 1-26. 

[4]     Wu Y C, Zhou H X*, Che A L. (2023) Evaluation of road blockage induced by seismic landslides under 2021 Ms6.4 Yangbi earthquake. Environmental Earth Sciences, 83, 22. 

[5]     Zhou H X, Che A L*, Zhu R J. (2022) Damage evolution of rock slopes under seismic motions using shaking table test. Rock Mechanics and Rock Engineering, 55(8), 4979-4997. 

[6]     Zhou H X, Che A L*, Li G. (2022) Characteristics and failure mechanism of landslides along highways triggered by 2021 Ms6.4 Yangbi earthquake. Landslides, 19(1), 165-176. 

[7]     Zhou H X, Che A L*, Zhu R J. (2021) Dynamic evolution mechanism of a rock slope with discontinuities under earthquake motions using shaking table tests. Environmental Earth Sciences, 80, 797.

[8]     Zhou H X, Che A L*. (2021) Geomaterial segmentation method using multidimensional frequency analysis based on electrical resistivity tomography. Engineering Geology, 284, 105925. 

[9]     Zhou H X, Che A L, Wang L M*, Wang L. (2021) Investigation and mechanism analysis of disasters under Hokkaido Eastern Iburi earthquake. Geomatics Natural Hazards and Risk, 12(1), 1-28. 

[10] Chen J C, Che A L*, Wang L M, Zhou H X. (2024) Investigating the failure mechanism of loess-mudstone landslides with a high water content interface subjected to earthquakes through the shaking table test[J]. Soil Dynamics and Earthquake Engineering, 177: 108406.

[11] Yuan G L, Wu Z J*, Che A L*, Zhou H X. (2023) Damage evolution mechanism of loess slope under the combination of freeze-thaw cycles and earthquake. Soil Dynamics and Earthquake Engineering, 166, 107778. 

[12] Chen J C, Wang L M*, Che A L, Zhou H X. (2022) Ground Motion and Site Characteristics Evaluation Using Hilbert-Huang Transform Method Based on Light-Moderate Earthquakes. Shock and Vibration, 2022, 5241257. 

[13] Xu Z Y, Che A L*, Zhou H X. (2024) Seismic landslide susceptibility assessment using principal component analysis and support vector machine, Scientific Reports, 14, 3734.

[14] Xu Z Y, Che A L*, Zhou H X, Shen Y F, He W G. (2024) Optimized deep learning modelling for predicting the diffusion range and state change of filling projects, Tunnelling and Underground Space Technology, 154, 106073.

[15] Chen J C, Che A L*, Wang L M, Zhou H X. (2024) Dynamic response prediction for slope during earthquake using modal analysis and deep learning methods, Computers and Geotechnics, 174, 106618.

[16] Guo Y J, Yuan G L*, Che A L, Wu Z J, Zhou H X, Liu Y. (2024) Reconstruction method for a three-demensional discrete element numerical model of landslides using an integrated multi-electrode resistivity tomography method and an unmanned aerial vehicle survey, Journal of Applied Geophysics, 228, 105469.

[17] Su Chao, Che Ailan*, Yuan Ganglie, Zhou Hanxu, Li Xiaowei. (2025) Numerical prediction of progressive failure in earthquake-damaged slopes under rainfall using MPM, Landslides, https://doi.org/10.1007/s10346-025-02640-6

[18] 崔庆宇, 周晗旭*, 车爱兰, 陈俊伟, 余雪娟. 考虑衬砌结构特征的盾尾同步注浆检测方法[J]. 振动与冲击, 2024, 43(15): 77-85.

[19] 王宇航, 韩瑀萱, 周辀, 张文居, 周晗旭*, 车爱兰. 基于电参数同步测试的砂土损伤本构模型[J]. 深圳大学学报(理工版), 2025. 

[20] 李笑唯, 周晗旭*, 车爱兰. 电测量法在岩质边坡软弱层损伤累积研究中的应用[J]. 工程地质学报, 2024, 32(2): 657-666. 

[21] 李致远, 韩瑀萱, 周辀*, 张文居, 周晗旭, 车爱兰. 基于岩溶空间重构模型的隧道涌水量预测[J]. 工程地质学报, 2025.

[22] 徐子瑶, 车爱兰, 周晗旭, 袁刚烈, 韩兆龙. 沉管隧道基础灌砂过程监测及填充状态评价[J]. 振动与冲击, 2023, 42(24), 204-211. 

[23] 陈大伟, 吴志坚*, 梁超, 周晗旭. 通渭黄土滑坡变形特征及致灾机理分析[J]. 防灾减灾工程学报, 2022, 42(1), 24-33. 

[24] 韩悦, 周晗旭, 袁刚烈, 车爱兰*. 基于水下声波映像法的桥梁基础抛石防护检测与评估[J]. 振动与冲击, 2021, 40(20), 100-107. 

[25] 王启明, 车爱兰*, 周晗旭. 基于三维网格模型重构的岩溶地质构造稳定性数值分析[J]. 河北工业大学学报, 2021, 50(5), 89-96. 

[26] 吴雨辰, 周晗旭, 车爱兰*. 基于粗糙集–神经网络的IBURI地震滑坡易发性研究[J]. 岩石力学与工程学报, 2021, 40(6), 1226-1235. 

[27] Zhou H X, Che A L*. Seismic landslide susceptibility mapping using machine learning methods: A case study of the 2013 Ms6.6 Min-Zhang earthquake. Emergency Management Science and Technology, 2023, 3, 5.

[28] Fan T H, Yang H R, Liang Q Z, Zhang M, Cheng X, Yu M X, Zhou H X, Han Z L*. Challenges and potential solutions for the global optimization of "Offshore Wind Energy - Multi-Marine Resources" integration system in the Beibu Gulf of Guangxi[J]. The Innovation Energy, 2025, 2, 100073.

[29] Zhou H X, Che A L*, Shuai X H. Investigation of civil building damage and its spatial characteristics under 2019 ML6.0 Changning earthquake[C]. IOP Conference Series: Earth and Environmental Science, 2021, 676, 012072.

[30] Zhou H X, Che A L*, Wu Z J. Seismic landslide susceptibility assessment basing on newmark model considering site amplification[C]. 17th World Conference on Earthquake Engineering (17WCEE), 2021, Sendai, Japan. 

[31] Zhou H X, Che A L*. Dynamic Response Analysis of Slope Based on 3D Mesh Model Reconstruction and Electrical Resistivity Topography[C]. 4th International Conference on Performance-based Design in Earthquake Geotechnical Engineering (PBD-Ⅳ), 2022, Beijing, China.

[32] Che A L*, Zhou H X, Chen J C, Wu Y C, Xu Z Y. Seismic Landslide Susceptibility Assessment Based on Seismic Ground Motion and Earthquake Disaster Analysis[C]. 4th International Conference on Performance-based Design in Earthquake Geotechnical Engineering (PBD-Ⅳ), 2022, Beijing, China. 

[33] Zhou H X, Che A L*. Slope stability analysis based on reconstructed mesh model using DEM and ERT[C]. 2nd International Conference on Construction Resources for Environmentally Sustainable Technologies (CREST), 2023, Fukuoka, Japan. 

环境地质灾害、现代结构测试技术

[1]     车爱兰, 周晗旭. 基于机器学习的震后受灾人口快速空间评估方法及系统. 发明专利: CN 112767219 B. 2022-12-13.

[2]     车爱兰, 吴雨辰, 周晗旭. 一种震后道路受灾区域快速预测方法、系统及存储介质. 发明专利: CN 113536659 B. 2022-11-04.

[3]     袁刚烈, 周晗旭, 车爱兰. 一种边坡岩土体电参数时空演化测试系统及方法. 发明专利: CN 113671155 B. 2023-02-17.

[4]     周晗旭, 车爱兰, 李笑唯. 基于电测量的复杂荷载作用下岩质边坡损伤累积评估方法. 发明专利: CN 113484138 B. 2023-06-13.

[5]     车爱兰, 王启明, 周晗旭. CTGEO三维网格模型重构软件. 软件著作权: 2019SR0389815. 2019-01-23.

[6]   冲击映像法路面结构病害检测规程，T/CHTS 10192-2025，团体标准，参编，排名19/30.