曹黎媛(女),博士、副教授、硕士生导师。
从事专业:结构工程;
研究方向:结构振动控制、人工智能、抗风减灾、土与结构相互作用。
邮箱:caoly@shu.edu.cn
教育经历:
2016年9月至2020年1月,英国正版365首页,结构工程专业,获博士学位;
2013年9月至2016年6月,365(VIP)英国上市土木工程系,结构工程专业,获硕士学位;
2009年9月至2013年6月,南京工程学院建筑工程学院,土木工程专业,获学士学位。
研究经历:
2024年3月至今,英国正版365首页,土木工程系,副教授,硕士生导师;
2022年9月至2023年8月,上海市虹口区委宣传部,新时代文明实践科,副科长;
2020年6月至2024年2月,英国正版365首页,土木工程系,讲师,硕士生导师。
学术研究与人才培养:
发表学术论文53篇,其中SCI论文33篇,ESI高被引论文8篇、ESI热点论文2。代表性原创学术成果“高性能TTMDI振动控制系统”,2019年发表于Structural Control and Health Monitoring杂志,2019 ESI高被引论文,目前WOS引用206次。5篇结构振动控制代表性论文WOS总引用593次。获授权国家发明专利5项。
入选上海市2021年度“科技创新行动计划”扬帆计划,2021年“上海高校青年教师培养资助计划”,2022年“365(VIP)英国上市青年英才启航计划”。 主持国家自然科学基金青年科学基金项目、上海市科委项目、中国-巴基斯坦重大基础设施智慧防灾“一带一路”联合实验室开放基金、岩土及地下工程教育部重点实验室(同济大学)开放基金、365(VIP)英国上市青年英才启航计划及2项校企合作项目。参加国家自然科学基金面上项目2项。
参加编制中国国际科技促进会《装配式剪力墙结构减震增韧控制设计指南》(T/CI 566—2024) 团体标准。现担任中国振动工程学会随机振动专业委员会委员、中国建筑学会冰雪工程专业委员会委员和上海市力学委员会振动力学专业委员会委员;中国地震学会地震灾害链专业委员会—2022年和2024年学术年会组织委员会委员。
承担本科生的《结构力学》、《计算结构力学》、《工程结构抗震及防灾》、《工程项管理及法规》、《数字化装配式结构设计与建造》课程教学。
发表的SCI论文:
1. Huang Xinyi, Wei Haitao, Cao Liyuan (通讯作者), Li Chunxiang, Chen Wujun. Deep reinforcement learning TD3-driven high-performance construction of nonstationary wind field through single-point measured data. Journal of Wind Engineering & Industrial Aerodynamics, 2026, 274: 106461.
2. Li Xin, Cao Liyuan, Li Chunxiang (通讯作者). A novel shape memory alloy eddy current inerter damper with multiple energy dissipation. Engineering Structures, 2026, 346: 121667.
3. Zhang Jun, Cao Liyuan (通讯作者), Li Chunxiang (通讯作者). Cyclic constrained attention-guided stacking with twin delayed deep deterministic optimization for oceanic wind direction prediction. Engineering Applications of Artificial Intelligence, 2026, 165: 113361.
4. Cao Liyuan, Wang Yuchen, Li Chunxiang (通讯作者), Li Xin (通讯作者). Seismic isolation performance of a hybrid friction pendulum system with tuned tandem inerter damper. Soil Dynamics and Earthquake Engineering, 2026, 201:109891.
5. Li Xin, Zhou Chenying, Shu Wenhui, Li Chunxiang (通讯作者), Cao Liyuan (通讯作者). Soil-damped structure interaction analysis considering deep reinforcement learning-driven soil mesh optimization. Soil Dynamics and Earthquake Engineering, 2026, 202: 110067.
6. Zhou Chenying, Shu Wenhui, Li Xin, Cao Liyuan, Li Chunxiang (通讯作者). Automated design framework of viscous damping walls for structures under multidirectional earthquakes using physics-informed deep reinforcement learning. Journal of Structural Design and Construction Practice, 2026, 31(3): 04026027.
7. Li Jinhua, Li Tianyi, Cao Liyuan, Li Chunxiang (通讯作者). Non-equidistant moving load amplitude spectrum for studying resonance and cancellation phenomena of simply supported bridges under trains loads. Railway Engineering Science, 2026, https://doi.org/10.1007/s40534-025-00417-0.
8. Cao Liyuan, Pan Hang (通讯作者), Li Xin, Li Chunxiang (通讯作者). Predicting optimal primary tuning parameters of PTTMDI for vortex-induced vibration control of super-tall buildings using physics information enhanced DNN. Engineering Structures, 2025, 334: 120268.
9. Li Chunxiang, Zhao Jie, Pan Hang, Cao Liyuan (通讯作者), Guan Qingsong, Xu Zhao-Dong (通讯作者). Deep reinforcement learning based performance optimization of hybrid system for base-isolated structure and shape memory alloy-inerter. Engineering Structures, 2025, 334: 120244. (ESI Highly Cited Paper, Top 1%)
10. Cao Liyuan, Li Xueqin (通讯作者), Huang Yu, Li Chunxiang, Pan Han (通讯作者). High robust eddy current tuned tandem mass dampers-inerters for structures under the ground acceleration. Soil Dynamics and Earthquake Engineering, 2025, 188: 109040.(ESI Highly Cited Paper, Top 1%; ESI Hot Paper, Top 0.1%)
11. Li Xin, Wang Zhihao, Pan Hang, Cao Liyuan (通讯作者), Li Chunxiang. Hybrid system of base-isolated structure with tuned tandem mass damper-inerters considering internal friction. Journal of Building Engineering, 2025, 101: 111853.(ESI Highly Cited Paper, Top 1%; ESI Hot Paper, Top 0.1%)
12. Pan Han, Li Chunxiang, Cao Liyuan (通讯作者). Bidirectional pendulum-type tuned tendem mass dampers-inerters for integrated control of alongwind and crosswind responses in super-tall buildings. Journal of Building Engineering, 2025, 100: 111676. (ESI Highly Cited Paper, Top 1%)
13. Zhang Jun, Chen Yaoran, Pan Hang, Cao Liyuan, Li Chunxiang (通讯作者). Constrained deep reinforcement transfer learning for short-term forecasting of wind discrepancies at ocean stations. Neurocomputing, 2025, 624: 129491.
14. Huang Xinyi, Wang Feng, Zhou Chong, Li Chunxiang (通讯作者), Cao Liyuan (通讯作者). Time-frequency interpolation enhanced SWSRM for efficient simulation of time-varying coherent nonstationary nonhomogeneous wind fields. Wind and Structures, 2025, 41(3): 203-219.
15. Liyuan Cao (通讯作者), Jiahao Lu, Chunxiang Li. Enhanced data-driven simulation of non-stationary winds using DPOD based coherence matrix decomposition. Wind and Structures, 2024, 39(2): 125-140.
16. Wang Feng, Cao Liyuan (通讯作者), Chunxiang Li. Performance enhancement of base-isolated structures on soft foundation based on smart material-inerter synergism. Earthquakes and Structures. 2024, 27(1): 501-515.
17. Pan Hang, Li Chunxiang (通讯作者), Cao Liyuan (通讯作者). Bidirectional pendulum-type tuned mass damper inerter for synchronously controlling the alongwind and crosswind responses of super-tall buildings. Engineering Structures, 2024, 315: 118522.
18. Li Chunxiang, Pan Hang, Cao Liyuan (通讯作者). Pendulum-type tuned tandem mass dampers-inerters for crosswind response control of super-tall buildings. Journal of Wind Engineering and Industrial Aerodynamics, 2024, 247: 105706. (ESI Highly Cited Paper, Top 1%)
19. Ma Ruwei, Zhu Zhexuan, Li Chunxiang (通讯作者), Cao Liyuan (通讯作者). Multi-step wind speed forecasting synergistically using generalized S-transform and improved grey wolf optimizer. Wind and Structures, 2024, 38(6): 461-475.
20. Wang Changqing (通讯作者), Guo Jian, Cao Liyuan, Zhang Youchao, Ma Zhiming (通讯作者), Chunxiang Li. Mechanical behavior and fiber reinforcing mechanism of high-toughness recycled aggregate concrete under high strain-rate impact loads. Construction and Building Materials, 2024, 437:136960. (ESI Highly Cited Paper, Top 1%)
21. Li Chunxiang, Chen Li, Cao Liyuan (通讯作者). High-efficiency simulation of nonstationary wind velocity using diagonal POD of decomposed time-frequency interpolation node spectrum matrices. Journal of Wind Engineering and Industrial Aerodynamics, 2023, 233: 105314.
22. Li Jinhua, Zhu Desen, Cao Liyuan, Li Chunxiang (通讯作者). A wavelet transform based stationary transformation method for estimating the extreme value of the non-stationary wind speeds. Probabilistic Engineering Mechanics, 2023, 74: 103549.
23. Li Jinhua, Quan Zhan, Zhang Yao, Cao Liyuan, Li Chunxiang (通讯作者). Computational fluid dynamics based Kriging prediction on flutter derivatives of flat steel box girders. Symmetry, 2022, 14: 1304.
24. Li Chunxiang, Pan Hang, Cao Liyuan (通讯作者). Tuned tandem mass dampers-inerters for suppressing vortex-induced vibration of super-tall buildings. Engineering Structures, 2022, 270: 114831.
25. Li Chunxiang, Luo Kexing, Cao Liyuan (通讯作者). Data-driven simulation of multivariate nonstationary wind velocity with explicit introduction of the time-varying coherence functions, Journal of Wind Engineering and Industrial Aerodynamics, 2022, 220: 104872.
26. Ali Amir, Zhang Chunwei, Bibi Tayyaba, Cao Liyuan, Li Chunxiang, Hsiao Po-Chien. Investigation of five different low-cost locally available isolation layer materials used in sliding base isolation systems. Soil Dynamics and Earthquake Engineering, 2022, 154: 107127. (ESI Highly Cited Paper, Top 1%)
27. Cao Liyuan, Li Chunxiang (通讯作者). A high performance hybrid passive base-isolated system. Structural Control and Health Monitoring, 2022, 29(3): e2887.
28. Li Chunxiang, Chang Ke, Cao Liyuan (通讯作者), Huang Yu (通讯作者). Performance of a nonlinear hybrid base isolation system under the ground motions. Soil Dynamics and Earthquake Engineering, 2021, 143: 106589.
29. Cao Liyuan, Li Chunxiang (通讯作者) , Chen Xu. Performance of multiple tuned mass dampers-inerters for structures under harmonic ground acceleration. Smart Structures and Systems, 2020, 26(1): 49-61.
30. Cao Liyuan, Li Chunxiang (通讯作者). Tuned tandem mass dampers-inerters with broadband high effectiveness for structures under white noise base excitations. Structural Control and Health Monitoring, 2019; 26(4): e2319. (ESI Highly Cited Paper, Top 1%)
31. Li Chunxiang(通讯作者), Cao Liyuan. High performance active tuned mass damper inerter for structures under the ground acceleration. Earthquakes and Structures, 2019, 16(2): 149-163.
32. Li Chunxiang(通讯作者), Cao Liyuan. Active tuned tandem mass dampers for seismic structures. Earthquakes and Structures, 2019, 17(2): 143-162.
33. Cao Liyuan, Li Chunxiang (通讯作者) . Enhanced hybrid active tuned mass dampers for structures. Structural Control and Health Monitoring, 2018, 25: e2067.
