李雨桐,出版名Cruz Y. Li,男,弘深优秀学者,教授,博导,土木工程学哲学博士,工程力学理学学士。
籍贯河北廊坊,1993年出生于重庆市南岸区。
12岁起随母侨居非洲埃塞俄比亚,相继就读于英、美国际学校。后以校前1%的成绩考入美国威斯康辛大学麦迪逊分校,获Dean’s Honor校长荣誉毕业,受邀在工程物理系毕业典礼发表个人演讲。本科毕业后,受中国香港政府HKPFS全奖资助,于香港科技大学攻读硕士1年转直博2.5年毕业,获港科大杰出科研奖,担任工学院大使。
-----------【成果概述】-----------
自20年首次发文,共发表(含已接收)学术论文54篇,其中SCI论文32篇,JCR一区27篇,中科院TOP期刊论文21篇;以第一/通讯作者发表SCI论文25篇,邀稿4篇,ESI高被引2篇, h-index指数14,IF影响因子总和196,篇均5.6。
入选中组部国家级人才计划青年项目。
主持香港科技局RGC项目等科研经费8项;受新加坡总理办邀请邀参加了2021年世界青年科学家峰会。担任SCI期刊Phys. Fluids顾问委员会委员,Phys. Fluids、Front. Phys.特刊主编, IAWE国际风工程学会、ASCE美国土木工程学会等13个国内外学术组织会员。获中国交通运输协会科技进步一等奖、港科大杰出科研奖等荣誉13项。
-----------【工作经历】-----------
【2023.11–至 今】重庆大学,土木工程学院,教授
【2023.04–2023.11】重庆大学,土木工程学院,副教授
【2022.03–2023.04】香港科技大学,土木与环境工程系,博士后研究员
【2017.08–2018.08】美国威斯康辛大学麦迪逊分校,MFVAL多相流可视化和分析实验室,助理研究员
-----------【教育背景】-----------
【2018.09–2022.02】香港科技大学,土木工程,哲学博士,导师:Tim K.T. Tse
【2013.09–2018.05】美国威斯康辛大学麦迪逊分校,工程力学,理学学士,导师:Matthew S. Allen
【2008.09–2013.05】埃塞俄比亚ICS-Addis Ababa美国国际学校,IB国际文凭 & 初高中
【2006.09–2008.05】埃塞俄比亚Sandford英国国际学校,初中
【2000.09–2006.06】重庆市沙坪坝区树人小学,小学
-----------【其它经历】-----------
【2016.06–2016.07】云南省巍山县青华乡青华小学,支教教师
【2015.06–2016.08】重庆欧逊越洋留学培训,全职英语教师
【2013.03–2013.08】埃塞俄比亚Woliso, Nasret, Araba Minch等偏远地区贫困村庄,支教教师
【2010.05–2013.08】埃塞俄比亚UN联合国、ECA非经委、AU非洲联盟,MUN模拟联合国竞赛辩手
【2006.09–2018.05】中国驻埃塞俄比亚大使馆,志愿者、优秀留学生代表
(在驻埃使馆与经参处的带领下,志愿参加我国利比亚、南苏丹两次重大撤侨任务(电影《战狼2》原型)的后勤保障工作)
研究方向
【5】风工程—钝体空气动力学和城市建筑抗风防灾
Wind Engineering—Bluff-body aerodynamics & wind disaster prevention of urban structures
【4】流体力学—钝体流固耦合和亚临界湍流尾流
Fluid Mechanics—Bluff-body fluid-structure interactions & subcritical turbulent wake flows
【3】数据科学—应用库普曼理论与人工智能降阶算法
Data Science—Applied Koopmanism & AI reduced-order modelling
【2】环境工程—城市风环境与污染物传播
Environmental Engineering—Urban wind environment & air pollutant dispersion
【1】未来城市—低碳可持续化城市与节能控温材料
Future City—Low-Carbon sustainable city & energy-saving materials
学术兼职
【3】顾问委员会委员
• 《Physics of Fluids》(JCR Q1, IF: 4.980)
【2】特刊客座主编
• 《Physics of Fluids》(JCR Q1, IF: 4.980): Flow and Civil Structures (接稿中,欢迎投稿)
• 《Frontiers in Physics》(JCR Q2, IF: 3.718): Fluid-Structure Dynamics in Wind Engineering
【1】组织委员会委员
• HKWES 4 第四届香港风工程大会
主要成果
-----------【理论成果】-----------
【3】原创性提出了“Koopman-LTI 库普曼线性恒定”流固耦合分析理论
实现了对高雷诺数流固耦合系统的全局最优线性化
【2】提出了“Dynamic Koopman Mode 动态库普曼模态” 和 “POD-DMD-DFT Augmented Analysis 融合强化分解” 2项降阶分解算法
明确了流-固现象间的特征映射、动态对应关系,揭示了诱发特定风荷载的流场激励源,阐明了流固耦合系统的时空衍变机制;
【1】将Koopman理论引入风/环境工程领域流固耦合研究体系
发现了Partial Reattachment 部分再附着、Tri-pole Wake 三极尾流、Base Intensification 基端强化等流体现象,优化了城市建筑(群)抗风设计关键参数,为毗邻风场飞沫、污染物扩散和自然通风的评估与优化提供了科学支撑。
-----------【科研项目】-----------
【8】2023.09,重庆市留学人员回国创新支持计划(重点)(主持)
【7】2023.04,中央高校基本科研业务费(主持)
【6】2023.04,重庆大学科研启动费(主持)
【5】2022.05-2022.12,香港研究资助局HKPFS Research Funding Support for Publication in High-impact Open Access Journals(主持)
【4】2021.11-2022.05,香港研究资助局HKPFS Strengthened Funding Support(主持)
【3】2020.11-2022.05,香港研究资助局HKPFS Strengthened Funding Support(主持)
【2】2022.02-2022.05,香港研究资助局HKPFS Research Funding Support for Publication in High-impact Open Access Journals(主持)
【1】2021.12-2022.05,香港研究资助局HKPFS Research Funding Support for Publication in High-impact Open Access Journals(主持)
-----------【SCI期刊论文】*通讯 †共一 (发表年数据)-----------
【34】Ye, X., Zhang, X., Weerasuriya, A. U., Hang, J., Zeng, L. & Li, C. Y. (2023) Optimum design parameters for a venturi-shaped roof to maximize the performance of building-integrated wind turbines. Applied Energy, 355, 122311. https://doi.org/10.1016/j.apenergy.2023.122311 (JCR一区, 中科院一区TOP, IF: 11.200)
【33】Zhao, Z., Li, C. Y.†, Chen, Z., Wang, S., Xu, Y., Xue, X. & Huang, L. (2023) Parallel ribbon vortex: a phenomenological flow feature in an atmospheric boundary layer near sloped terrain. Physics of Fluids, 35(11). https://doi.org/10.1063/5.0177855 (JCR一区, 中科院二区TOP, IF: 4.980)
【32】Lin, X., Fu, Y., Peng, Z., Liu, C. H., Chu, M., Chen, Z., Xue X., Hua, J., Yang, F., Tse, T. K. T., Li, C. Y.* & Feng, X. (2023). CFD- and BPNN- based investigation and prediction of air pollutant dispersion in urban environment. Sustainable Cities and Society, 100, 105029. https://doi.org/10.1016/j.scs.2023.105029 (JCR一区, 中科院一区TOP, IF: 11.700)
【31】Fu, Y., Lin, X., Li, L., Chu, M., Liu, C. H., Chen, Z., Li, C. Y.* & Tse, T. K. T. (2023). The NOx-O3 photochemical reactive air pollutant dispersion around an isolated building—the role of turbulence model and building aspect ratio. Building and Environment, 245, 110906. https://doi.org/10.1016/j.buildenv.2023.110906 (JCR一区, 中科院一区TOP, IF: 7.400)
【30】Chen, Z., Li, D., Li, S., Bai, J., Li, C. Y.*, Wang, H., Fu, Y. & Tse, T. K. T. (2023). Experimental and numerical investigation on the aerodynamics of isolated high-rise building and phenomenology of twisted wind field. Engineering Applications of Computational Fluid Mechanics. In Press. https://doi.org/10.1080/19942060.2023.2264351 (JCR一区, 中科院一区TOP, IF: 6.100)
【29】Li, C. Y., Chen, Z., Tse, T. K. T., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2023). The Linear-Time-Invariance Notion of the Koopman Analysis - Part 2: Physical Interpretations of Invariant Koopman Modes and Phenomenological Revelations. Journal of Fluid Mechanics, 959, A15. https://doi.org/10.1017/jfm.2023.36 (JCR一区, 中科院二区TOP, IF: 4.245)
【28】Li, C. Y., Chen, Z., Weerasuriya, A. U., Zhang, X., Lin, X., Zhou, L., Fu, Y. & Tse, T. K. T. (2023). Best practice guidelines for the dynamic mode decomposition from a wind engineering perspective. Journal of Wind Engineering and Industrial Aerodynamics, 241, 1105506. https://doi.org/10.1016/j.jweia.2023.105506 (主编邀稿, JCR一区, 中科院二区TOP, IF: 4.437)
【27】Wang, Y., Liu, H., Lei, M., Chen, Z., Tse, T. K. T., Li, C. Y.* & Fu, Y. (2023). Aerodynamic analysis of ultra–long and ultra–wide steel structure under wind loading: Insights into flow dynamics and pressure distribution characteristics. Journal of Building Engineering, 76, 107114. https://doi.org/10.1016/j.jobe.2023.107144 (JCR一区, 中科院二区, IF: 7.144)
【26】Xu, Y., Li, C. Y.†, Chen, Z., Tse, K. T., Huang, L., Xue, X., Hua, J., & Fu, X. (2023). Isolation, decomposition, and mechanisms of the aerodynamic nonlinearity and flow field phenomenology of structure-motion-induced dynamics in fluid-structure interactions. Physics of Fluids, 35(4), 47125. https://doi.org/10.1063/5.0147851. (JCR一区, 中科院二区TOP, IF: 4.980)
【25】Lin, C., Ma, W., Zhang, Y., Law, M. K., Li, C. Y., Li, Y., Chen, Z., Li, K., Li, M., Zheng, J., Fu, Y., Yan, X., Chi, C., Yang, J., Li, W., Yao, S. & Huang, B. (2023). A Highly Transparent Photo-Electro-Thermal Film with Broadband Selectivity for All-Day Anti-/De-Icing. Small. In Press. https://doi.org/10.1002/smll.202301723 (JCR一区, 中科院一区TOP, IF: 15.153)
【24】Chen, Z., Bai, J., Wang, S., Xue, X., Li, K., Tse, T. K. T., Li, C. Y.*, & Lin, C. (2023). The Role of Transverse Inclination on the Flow Phenomenology around Cantilevered Prisms and the Tripole Wake. Journal of Fluids and Structures, 118, 103837. https://doi.org/10.1016/j.jfluidstructs.2023.103837 (JCR一区, 中科院二区, IF: 3.482)
【23】Fu, Y., Lin, X., Li, L., Chu, Q., Liu, H., Zheng, X., Liu, C. H., Chen, Z., Lin, C., Tse, T. K.T. & Li, C. Y.* (2023). A POD-DMD augmented analysis procedure to isolating dominant flow field structures in a street canyon. Physics of Fluids, 35(2), 02512. https://doi.org/10.1063/5.0133375 (JCR一区, 中科院二区TOP, IF: 4.980)
【22】Li, C. Y., Chen, Z., Zhang, X., Tse, T. K. T., Lin, C. (2023). Koopman analysis by the dynamic mode decomposition in wind engineering. Journal of Wind Engineering and Industrial Aerodynamics, 232, 105295. https://doi.org/10.1016/j.jweia.2022.105295 (JCR一区, 中科院二区TOP, IF: 4.437)
【21】Chen, Z., Zhang, L., Li, K., Xue, X., Zhang, X., Kim, B., Li, C. Y.* (2023). Machine-learning prediction of aerodynamic damping for buildings and structures undergoing flow-induced vibrations. Journal of Building Engineering, 63, 105374. https://doi.org/10.1016/j.jobe.2022.105374 (ESI高被引, JCR一区, 中科院二区, IF: 7.144)
【20】Fu, Y., Lin, X., Zheng, X., Wang, L., Liu, C. H., Zhang, X., Li, C. Y.*, & Tse, T. K. T. (2023). Physio-chemical modeling of the NOx-O3 photochemical cycle and the air pollutants’ reactive dispersion around an isolated building. Building Simulation, 16, 1735-1758. https://doi.org/10.1007/s12273-023-1042-0 (JCR一区, 中科院二区, IF: 4.008)
【19】Chen, Z., Ning, G., Zhang, L., Li, S., Wang, S., Xu, Y., Yuan, C., Tse, T. K. T., Li, C. Y.* & Xue, X. (2023). A Comprehensive Study of the Aerodynamic Characteristics of an Aspect Ratio of 6.25:1 Inclined Square Prism. Frontiers in Physics, 11, 1180778. https://doi.org/10.3389/fphy.2023.1180778 (JCR二区, 中科院三区, IF: 3.718)
【18】Li, C. Y., Lin, X., Hu, G., Zhou, L., Tse, T. K. T., Fu, Y. (2023). Applied Koopmanistic Interpretation of Subcritical Prism Wake Physics using the Dynamic Mode Decomposition. Wind and Structures, 37(3), 191-209. https://doi.org/10.12989/was.2023.37.3.191 (JCR三区, 中科院四区, IF: 1.729)
【17】Chen, Z., Bai, J., Xu, Y., Hua, J., Li, C. Y.* & Xue, X. (2023). Unsteady Aerodynamic Force on a Transverse Inclined Slender Prism using forced vibration. Wind and Structures. In press. (JCR三区, 中科院四区, IF: 1.729)
【16】Li, C. Y., Chen, Z., Lin, X., Weerasuriya, A. U., Zhang, X., Tse, T. K. T., & Fu, Y. (2022). The linear-time-invariance notion of the Koopman Analysis: the architecture, pedagogical rendering, and fluid-structure association. Physics of Fluids, 34(12), 125136. https://doi.org/10.1063/5.0124914 (主编邀稿, JCR一区, 中科院二区TOP, IF: 4.980)
【15】Li, C. Y., Chen, Z., Tse, T. K. T., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2022). A Parametric and Feasibility Study for Data Sampling of the Dynamic Mode Decomposition: Spectral Insights and Further Explorations. Physics of Fluids, 34(3), 035102. https://doi.org/10.1063/5.0082640 (主编邀稿, JCR一区, 中科院二区TOP, IF: 4.980)
【14】Li, C. Y., Chen, Z., Tse, T. K. T., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2022). A parametric and feasibility study for data sampling of the dynamic mode decomposition: range, resolution, and universal convergence states. Nonlinear Dynamics, 107(4), 3683-3707. https://doi.org/10.1007/s11071-021-07167-8 (JCR一区, 中科院二区, IF: 5.741)
【13】Chen, Z., Wang, Y., Wang, S., Huang, H., Tse, K. T., Li, C. Y.*, & Lin, C. (2022). Decoupling bi-directional fluid-structure interactions by the Koopman theory: actualizing one-way subcases and the role of crosswind structure motion. Physics of Fluids, 34(9), 095103. https://doi.org/10.1063/5.0101749 (JCR一区,中科院二区TOP, IF: 4.980)
【12】Chu, Q., Liu, H., Xia, S., Dong, J., Lei, M., Tse, K. T., Teng, X., Li, C. Y.*, Fu, Y. (2022). Numerical and Experimental Study on the Member Performance and Stability Bearing Capacity of Wheel Coupler Formwork Supports. Applied Sciences, 12(20), 10452. https://doi.org/10.3390/app122010452 (JCR二区, 中科院三区, IF: 2.838)
【11】Wang, S., Liu, H., Wang, Y., Qiao, Y., Wang, L., Bai, J., Tse, K. T., Li, C. Y.*, Fu, Y. (2022). Experimental Study on the Seismic Performance of Shear Walls with Different Coal Gangue Replacement Rates. Applied Sciences, 12(20), 10622. https://doi.org/10.3390/app12201062 (JCR二区,中科院三区, IF: 2.838)
【10】Fan, X., Zhang, X., Weerasuriya, A. U., Hang, J., Zeng, L., Luo, Q., Li, C. Y., & Chen, Z. (2022). Numerical investigation of the effects of environmental conditions, droplet size, and social distancing on droplet transmission in a street canyon. Building and Environment, 221, 109261. https://doi.org/10.1016/J.BUILDENV.2022.109261 (JCR一区, 中科院一区TOP, IF: 7.093)
【9】He, Y., Zhang, L., Chen, Z., & Li, C. Y. (2022). A framework of structural damage detection for civil structures using a combined multi-scale convolutional neural network and echo state network. Engineering with Computers, 1, 1–19. https://doi.org/10.1007/S00366-021-01584-4 (JCR一区, 中科院二区TOP, IF: 8.083)
【8】Zhang, X., Weerasuriya, A. U., Wang, J., Li, C. Y., Chen, Z., Tse, K. T., & Hang, J. (2022). Cross-ventilation of a generic building with various configurations of external and internal openings. Building and Environment, 207, 108447. https://doi.org/10.1016/j.buildenv.2021.108447 (JCR一区, 中科院一区TOP, IF: 6.456)
【7】Li, C. Y., Chen, Z., Tse, T. K. T., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2021). Establishing direct phenomenological connections between fluid and structure by the Koopman-Linearly Time-Invariant analysis. Physics of Fluids, 33(12), 121707. https://doi.org/10.1063/5.0075664 (主编邀稿, JCR一区,中科院二区TOP, IF: 4.980)
【6】Chen, Z., Fu, X., Xu, Y., Li, C. Y.*, Kim, B., & Tse, K. T. (2021). A perspective on the aerodynamics and aeroelasticity of tapering: Partial reattachment. Journal of Wind Engineering and Industrial Aerodynamics, 212 (October 2020), 104590. https://doi.org/10.1016/j.jweia.2021.104590 (ESI高被引, JCR一区, 中科院二区TOP, IF: 4.437)
【5】Zhou, L., Tse, K. T., Hu, G., & Li, C. Y. (2021). Higher order dynamic mode decomposition of wind pressures on square buildings. Journal of Wind Engineering and Industrial Aerodynamics, 211, 104545. https://doi.org/10.1016/j.jweia.2021.104545 (JCR一区, 中科院二区TOP, IF: 4.437)
【4】Zhou, L., Tse, K. T., Hu, G., & Li, C. Y. (2021). Mode interpretation of interference effects between tall buildings in tandem and side-by-side arrangement with POD and ICA. Engineering Structures, 243, 112616. https://doi.org/10.1016/j.engstruct.2021.11261 (JCR一区, 中科院二区TOP, IF: 5.582)
【3】Li, C. Y., Tse, T. K. T., & Hu, G. (2020). Dynamic Mode Decomposition on pressure flow field analysis: Flow field reconstruction, accuracy, and practical significance. Journal of Wind Engineering and Industrial Aerodynamics, 205, 104278. https://doi.org/10.1016/j.jweia.2020.104278 (JCR一区,中科院二区TOP, IF: 4.437)
【2】Chen, Z., Huang, H., Tse, T. K. T., Xu, Y., & Li, C. Y.* (2020). Characteristics of unsteady aerodynamic forces on an aeroelastic prism: A comparative study. Journal of Wind Engineering and Industrial Aerodynamics, 205, 104325. https://doi.org/10.1016/j.jweia.2020.104325 (JCR一区, 中科院二区TOP, IF: 4.437)
【1】Zhang, X., Weerasuriya, A. U., Zhang, X., Tse, T. K. T., Lu, B., Li, C. Y., & Liu, C.H. (2020). Pedestrian wind comfort near a super-tall building with various configurations in an urban-like setting. Building Simulation, 13(6), 1385-1408. https://doi.org/10.1007/s12273-020-0658-6 (JCR一区, 中科院二区, IF: 4.008)
-----------【国际会议论文】 -----------
【22】Li, C. Y., Chen, Z., Tse, T. K. T., Zhang, X., Fu, Y., Lin, X., Wang, Y. & Peng, Z. (2023). The linear-time-invariance notion to the Koopman analysis: decouple and quantify the cause-effect relationships of fluid-structure interactions. The 16th International Conference on Wind Engineering (ICWE 16). Florence, Italy, 29-31 Aug, 2023.
【21】Fu, Y., Peng, Z., Li, C. Y., Tse, T. K. T. & Feng, X. (2023). ANN-based physio-chemical prediction of the photochemical cycle and the reactive air pollutant dispersion in an urban environment. The 16th International Conference on Wind Engineering (ICWE 16). Florence, Italy, 29-31 Aug, 2023.
【20】Xu, Y., Chen, Z., Li, C. Y. & Lin, X. (2023). Nonlinear added aerodynamic damping and stiffness in still wind considering one-way fluid-structure interaction. The 16th International Conference on Wind Engineering (ICWE 16). Florence, Italy, 29-31 Aug, 2023.
【19】Yuan, C., Chen, Z., Li, C. Y., Zhang, L. & Ning, G. (2023). The effect of inclination on aerodynamic interference of parallel square cylinder and its mechanism. The 16th International Conference on Wind Engineering (ICWE 16). Florence, Italy, 29-31 Aug, 2023.
【18】Chen, Z., Wang, Y., Wang, S. & Li, C. Y. (2023). Decoupling bi-directional fluid-structure interactions by the Koopman theory: the role of crosswind structure motion. The 16th International Conference on Wind Engineering (ICWE 16). Florence, Italy, 29-31 Aug, 2023.
【17】Zhang, L., Chen, Z., Li, C. Y., Li, S. & Guan, T. (2023). Flow mechanism analysis of tandem square cylinders with different spacing rations under forced vibration based on DMD method. The 16th International Conference on Wind Engineering (ICWE 16). Florence, Italy, 29-31 Aug, 2023.
【16】Lin, X., Fu, Y., Li, C. Y. & Tse, T. K. T. (2023). Identifying dominant flow field features in an isolated street canyon: a data-driven analysis procedure. The 16th International Conference on Wind Engineering (ICWE 16). Florence, Italy, 29-31 Aug, 2023.
【15】Zhao, Z., Chen, Z., Li, C. Y. & Wang, S. (2023). Experimental and LES study of topographical acceleration effects of linear slopes with different slope ratios on ABL flows. The 16th International Conference on Wind Engineering (ICWE 16). Florence, Italy, 29-31 Aug, 2023.
【14】李雨桐,蔺习升,彭子悦,付云飞,谢锦添,王轶翔 & 汤津 (2023):基于“Koopman-LTI库普曼线性恒定”数据驱动算法的亚临界方柱尾流激励源分析,第二十一届全国结构风工程学术会议暨第七届全国风工程论坛,长沙,中国,2023年8月18-20日。
【13】彭子悦,蔺习升,李雨桐,付云飞,谢锦添,王轶翔 & 汤津 (2023):基于动态模态分解算法的库普曼分析在风工程中的研究总结与应用方法,第二十一届全国结构风工程学术会议暨第七届全国风工程论坛,长沙,中国,2023年8月18-20日。
【12】付云飞,王云龙,蔺习升,张秉超,Tse, T. K. T. & Li, C. Y. (2023):城市街道峡谷污染物扩散的降阶模型分析,第二十一届全国结构风工程学术会议暨第七届全国风工程论坛,长沙,中国,2023年8月18-20日。
【11】Li, C. Y., Chen, Z., Lin, X., Tse, T. K. T. & Fu, Y., (2023). A new Koopman-inspired approach to match flow field excitation with consequent structure responses for nonlinear fluid-structure interactions. The Third International Nonlinear Dynamics Conference (NODYCON2023). Rome, Italy, 18-22 Jun 2023.
【10】Fu, Y., Lin, X., Zhang, B., Feng, X., Liu, C. H., Tse, T. K. T. & Li, C. Y.* (2023). Reduced-order model analysis of the pollutant dispersion on an urban street canyon. The Third International Nonlinear Dynamics Conference (NODYCON2023). Rome, Italy, 18-22 Jun 2023.
【9】Fu, Y., Lin, X., Chu, M., Wang, F., Ning, Z., Tse, T. K. T. & Li, C. Y.* (2023). A reduced-order modeling procedure to isolating energy- and evolution-wise dominant features of fluid-driven pollutant dispersion in a street canyon. The Third International Nonlinear Dynamics Conference (NODYCON2023). Rome, Italy, 18-22 Jun 2023.
【8】Li, C. Y., Chen, Z., Tse, T. K. T., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2022). Best practice for the dynamic mode decomposition in wind engineering applications. The 8th European-African Conference of Wind Engineering (8EACWE). Bucharest, Romania, 20-23 Sep 2022.
【7】Li, C. Y., Chen, Z., & Tse, T. K. T. (2022). Associating structure surface pressure with corresponding flow field excitation—the data-driven answer to fluid-structure interaction. The 8th European-African Conference of Wind Engineering (8EACWE). Bucharest, Romania, 20-23 Sep 2022.
【6】Fu, Y., Li, L., Qin, X., Li, C. Y.* & Tse, T. K. T. (2022). Numerical study of reactive air pollutant dispersion in near-field wake. The 8th European-African Conference of Wind Engineering (8EACWE). Bucharest, Romania, 20-23 Sep, 2022.
【5】Chen, Z., Li, D., Li, C. Y. & Fu, X. (2022). Research on aerodynamic mechanism on single high-rise building based on twisted wind field in mountainous area. The 8th European-African Conference of Wind Engineering (8EACWE). Bucharest, Romania, 20-23 Sep, 2022.
【4】Tse, K. T., Li, C. Y. & Hu, G. (2021). High-Fidelity Flow Field Reconstruction and Revelation of Flow Mechanisms around High-rise Structures. Keynote Paper. The Infrastructure Construction Conference (ICC21), Osaka, Japan, 1 – 3 Nov 2021.
【3】Li, C. Y., Tse, K. T., & Hu, G. (2020). Reconstruction of Flow Field around a Square Prism Using Dynamic Mode Decomposition. The 4th Hong Kong Wind Engineering Society Workshop, 63, Hong Kong, China, 7 – 8 Feb 2020.
【2】Chen, Z., Tse, K. T., Li, C. Y., Kwok, K. C. S. & Kareem, A. (2020). A mathematical model for VIV-galloping force acting on slender prisms. The 4th Hong Kong Wind Engineering Society Workshop, 59-60, Hong Kong, China, 7 – 8 Feb 2020.
【1】Hu, G., Liu, F., Tse, K. T., Li, C. Y., Xiao, Y., & Kwok, K. C. S. (2019). Efficiency of circular cylinder-based wind energy harvester with different rod-shape attachments. The 15th International Conference on Wind Engineering, 775–776, Beijing, China, 1-6 Sep 2020.
获奖情况
【15】2023年,中组部国家级人才计划青年项目
【14】2022年,中国交通运输协会科技进步一等奖 (9/15)
【13】2020年,香港科技大学杰出科研奖
【12】2013-18年,美国威斯康辛大学麦迪逊分校校长荣誉
【11】2018年,美国威斯康辛大学麦迪逊分校工程物理系毕业典礼受邀演讲
【10】2021年,受邀参加世界青年科学家峰会
【9】2020-22年,港府HKPFS奖学金
【8】2020-21年,香港科技大学工学院学生大使
【7】2020-22年,港府HKPFS科研旅行经费2次
【6】2022年,港科大科研旅行经费
【5】2013年,IBO国际文凭组织物理学科奖
【4】2012年,IBO国际文凭组织历史学科奖
【3】2012年,埃塞俄比亚ICS-Addis Ababa美国国际学校最佳逻辑思维奖
【2】2011年,AU非盟MUN模拟联合国竞赛最佳辩手
【1】2011年,加拿大滑铁卢大学国际数学竞赛二等奖
-----------【导师MBTI】ENTJ-A -----------
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-----------【关于课题组风格】Work hard, play hard -----------
见过天才,都比常人更努力。
请保证每周至少40小时的高效学习时间(重点在高效)。
在此前提下,请规律、积极阳光生活,多运动,多出去看看世界。
学习本该是一件令人愉快且有成就感的事情。
努力工作,好好生活。
-----------【关于科研焦虑】科研没有标准答案 -----------
爱因斯坦:“Insanity is making the same mistakes and expecting different results.”
错误并不可怕,可怕的是没有自我修正的能力。
在正确的方向上努力就一定会出成果。
请相信自己,相信导师。
-----------【关于成果考核】“研究生”的基本要求=上好课+做好科研+做好人 -----------
Paper质量>数量。
项目申请、团队管理都是科研的重要组成部分。
请坦诚相待,切莫投机取巧。
做个坦荡的人,阳谋永远大于阴谋。
-----------【关于导师角色】Supervisor not babysitter -----------
请努力成为自己科研课题的专家。
遇到困难,请先自己寻找解决方案,成为有独立思考能力的科研工作者。
遇到真正的瓶颈,请及时与我沟通。
导师是助力,不是主力;是朋友,不是敌人。
-----------【关于师生关系】尊重,理解 -----------
当你在努力做好学生的同时,我也在努力做好导师,请互相理解。
遇到意见分歧,请保持人格的尊重,勤沟通、多协商。
情商是控制情绪的能力;情绪是理性最大的敌人。
科学,需要理性。
-----------【关于中西结合】不卑不亢,不崇洋媚外 -----------
曾在欧美(所谓)最发达国家和非洲最落后国家生活17年,接触过70多个国籍的人。
危难时刻,中国护照就是最大的底气。
回国发展,既是深思熟虑后的理性选择,也是对中国文化的绝对自信。
见过外国人对中国文化的崇拜,知晓一些西方社会的底层逻辑,知道无需妄自菲薄,卑躬屈膝。
见过一些海外尖端人才和技术,了解一些科研短板和技术壁垒,更知不可盲目自信,闭门造车。
开口评价之前,请先亲身体会、深入了解,思想莫被轻易夺舍。
曾有幸旁听杨振宁先生讲课,他将教好学生英文视为教学三大目标之一。
学好英文,才能更好报国。
-----------【关于科研诚信】零容忍,严惩不贷 -----------
对不守规则人的宽容,就是对遵守规则人最大的伤害。
请不要挑战我的底线。
有兴趣的同学可发简历至cruzli@cqu.edu.cn。
研究生培养
【2024年计划招收研究生1-2名,博士生1名】
联系方式
【邮箱】cruzli@cqu.edu.cn
【Google Scholar主页】https://scholar.google.com/citations?hl=en&user=04oJy5IAAAAJ
【ResearchGate主页】https://www.researchgate.net/profile/Cruz-Li/research
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