Li Ning
School
School of Civil Engineering
Professional Title
Professor
Administrative Appointments
Deputy Director of Aseismic Lab
Discipline
Structural Engineering
Contact Information
15022396067
nealleehit@gmail.com
43-C213 No 43 Bld, Tianjin University, 135 Yaguan Rd, Jinnan Dist., Tianjin
300350
Brief Introduction
Professor in School of Civil Engineering; 建筑工程学院教授
Supervisor of PH.D Student;博士生导师
Deputy Director, Anti-seismic and Anti-blast Laboratory;抗震抗爆实验室副主任
Education Background
- Bachelor of Engineering| Harbin Institute of Technology| Civil Engineering| 2004
- Bachelor of Science| Harbin Institute of Technology| Theory and Application of Mechanics| 2004
- Master of Engineering| Institute of Engineering Mechanics, CEA| Disaster Prevention and Mitigation Engineering| 2006
Research Interests
- Dynamics and Control
- Structural Health Monitoring
- Steel-Concrete Composite / Concrete Structure
- Non-destructive Detetion/Ultrasonic tech
- Shaking table testing and hybrid substructure testing
Courses
Positions & Employments
-
2017.7-2023.3
School of Civil Engineering | Tianjin University | Professor -
2015.4-2016.7
Civil and Environmental Engineering | University of Illinois, at Urbana and Champaign | Visiting Scholar -
2012.7-2017.11
School of Civil Engineering | Tianjin University | Associate Professor -
2009.10-2012.6
School of Civil Engineering | Tianjin University | Assistant of Professor
Academic Achievements
- Papers
- [1] 考虑压强、速率影响的FPS材料动摩擦试验与模拟研究
- [2] Prediction of seismic acceleration response of precast segmental self-centering concrete filled steel tube single-span bridges based on machine learning method
-
- [3] Quantitative Analysis of Time-varying Delay for Real-time Hybrid Simulation
- [4] Multiple-support response spectrum method incorporating fluid-structure interaction for seismic analysis of deepwater bridges
- [5] 基于强化学习的水下地震模拟振动台的控制与优化
- [6] 一种基于自适应集成学习代理模型的结构可靠性分析方法
- [7] 基于超声能量扩散的CFST界面剥离损伤检测方法与验证
- [8] 脉冲型地震载荷下自由摇摆桥墩的动态反应特性研究
- [9] 空心节段预制拼装RC桥墩的多维抗震性能试验研究
- [10] Digital twins for the underwater shake table array facility
- [11] Experimental and numerical study on seismic performance of precast segmental CFST bridge columns with non-uniform prestressed steel tendons
- [12] Modal Identification of Underwater Precast Self-centering Segmental CFST Bridge Under Horizontal or Vertical Ground Motion Based on Covariance Driven Random Subspace Identification
- [13] Reinforcement Learning Control Method for Real-time Hybrid Simulation based on Deep Deterministic Policy Gradient Algorithm
- [14] 非一致地震激励的改进位移输入法:误差分析与应用
- [15] 考虑震源和场地特征的近断层地区竖向地震动合成研究
- [16] 节段拼装自复位钢管混凝土单跨桥梁抗震性能振动台试验研究
- [17] 大跨铁路悬索桥一致激励与非一致激励地震响应对比分析研究
- [18] Seismic Performance of Precast Segmental Concrete-Filled Steel-Tube Bridge Columns with Internal and External Energy Dissipaters
- [19] Energy dissipation and resilience of precast segmented concrete-filled steel tube self-centering column: Parameter study and design methodology
- [20] A Novel Wind Resistance Sliding Support with Large Sliding Displacement and High Tensile Strength for Metal Roof System
- [21] Stability Prediction for Real-time Hybrid Simulation with Different Physical/Numerical Substructure Discretization Using Asynchronous Multirate Simulation
- [22] 考虑数值积分算法的实时子结构试验稳定性研究
- [23] 基于共享内存的过约束多自由度振动台解耦控制方法
- [24] Rapid Repair of RC Columns with Prestressed Stainless-steel hoops and Stainless steel jackets
- [25] 基于实时混合试验误差累积规律的时滞影响修正方法
- [26] Improving Model-Based Compensation Method for Real-Time Hybrid Simulation Considering Error of Identified Model
- [27] 基于NSGA-II的城市桥梁系统震后可恢复性分析与优化
- [28] Seismic performance of bridge with unbonded posttensioned self-centering segmented concrete-filled steel-tube columns: An underwater shaking table test
- [29] 近断层竖向地震动特征统计分析
- [30] Experimental Investigation and Confinement Model of Composite Confined Concrete using Steel Jacket and Prestressed Steel Hoop
- [31] 二阶段在线迭代时滞补偿方法及试验验证
- [32] Relative Energy Zero Ratio-Based Identification for Pulse-like Ground Motions
- [33] 预制拼装钢管混凝土自复位桥墩变形分析模型及验证
- [34] Experiments study on the interaction between water and cylindrical structure under earthquake action
- [35] Coordinative similitude law considering fluid-structure interaction for underwater shaking table tests
- Books
- [1] 建筑结构抗震设计
Team
工程抗震与减振控制试验室
依托