柳成荫 - 哈尔滨工业大学（深圳）

个人简介

教育经历 2004-2007 获工学博士学位（土木工程），美国康涅狄格大学(University of Connecticut) 2001-2004 获工学硕士学位（土木工程），中南大学 1996-2000 获工学学士学位（土木工程），长沙理工大学研究与工作经历 2021- 教授、博导，深圳市土木工程智能结构系统重点实验室副主任，哈工大（深圳）土木与环境工程学院 2012-2021 副教授、博导，哈工大（深圳）土木与环境工程学院 2010-2012 助理教授、硕导，哈工大（深圳）土木与环境工程学院 2007-2010 结构工程师，WSP GROUP （英国科进集团），纽约，美国科研项目 2024-2027 国家自然科学基金面上项目：众包模式下桥梁驱车监测与损伤诊断方法研究；52378295；主持 2023-2025 国家重点研发计划项目子课题：城市交通基础设施实时性态监测与模拟诊断应用验证；2022YFB2602105；主持 2020-2023 深圳市基础研究布局项目：风浪流极端荷载作用下跨海大桥致灾机理、智能监测及灾变防控技术研究；项目号：JCYJ20200109112816582；主持 2020-2021 国家重点研发计划子课题：基于多源异构大数据深度学习的坡体和老旧建筑安全评估预警技术; 2019YFC0810702；主持 2020-2023 国家自然科学基金面上项目：基于无线智能振动监测的大跨桥梁结构实时损伤诊断方法研究；51978215；主持 2018-2020 深圳市国际合作研究项目：电力微气象智能监测和精细化预警关键技术研究；GJHZ20180418190651055；主持 2019-2021 国家重点研发计划项目子课题：涉水重大基础设施灾害预警及防控技术；2018YFC0809606；主持 2018-2019 深圳市科技计划项目：大型桥梁无线健康监测网络的能量优化机理研究；JCYJ20170811155517130；主持 2017-2020 广东省自然科学基金面上项目：基于异构无线传感器网络的结构健康监测方法研究；2017A030313290；主持 2016-2018 深圳市科技计划项目：基于多传感器信息感知融合的结构损伤诊断机制研究；JCYJ20160525163140206；主持 2015-2017 深圳市科技计划项目：智慧城市基础设施监控网络关键技术开发研究； GJHZ20150312114346635；主持 2015-2016 广东省科技计划项目：大型基础设施智能监测网络关键技术开发研究；2014A050503016；主持 2017-2018 深圳市教育科学“十三五”规划2016年重点课题：结构实验技术课程移动教学平台的应用研究；主持 2014-2017 国家十二五科技支撑计划子课题：村镇区域抢险救灾与应急救援关键技术；2014BAL05B06；主持 2013-2015 广东省重大科技专项：基于无线智能传感器网络的结构健康监测系统研究与开发；2012A080104014;主持 2013-2015 深圳市人才创新创业专项：智能化结构无线健康监测系统关键技术开发研； KQCX20120802140634893；主持 2012-2014 国家自然科学基金青年基金项目：桥梁结构无线监测系统智能化方法研究；51108129；主持科研成果及奖励柳成荫(排名二); 交通基础设施物联网智能监测关键技术研究及应用, 中国公路学会, 科技进步三等奖, 2022

研究领域

桥梁工程，交通基础设施安全监测，土木工程智能防灾减灾，风险评估与应急管理

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Chengyin Liu, Yipeng Zhu, Qing Zeng*, Chengyuan Pan and Zhongdong Duan. Bridge Damage Identification Using Rotation Influence Line Under Random Vehicle Loads. International Journal of Structural Stability and Dynamics, (2023): 2450085. (SCI) Liu Chengyin, Zhu Yipeng, Zeng Qing* and Wu Xiaodong. Smartphone-based bridge frequency identifi cation using vehicle contact-point response. Journal of Earthquake Engineering and Engineering Vibration, DOI: s11803-023-2213-9. (SCI) Cheng Yan; Chengyin Liu*; Sheng Yu; Weijie Xu. Fatigue life prediction of stay cables under vehicle load considering corrosion variability. Structures, 56（2023): 104879. (SCI) Cheng Yan; Chengyin Liu*; Sheng Yu; Weijie Xu. Experimental study of fatigue and sensing performance of corroded smart steel wire. Measurement, 216（2023): 112970. (SCI) Sheng Yu; Cheng Yan; Chengyin Liu*; Jinping Ou* ; Fatigue Life Evaluation of Parallel Steel-Wire Cables under the Combined Actions of Corrosion and Traffic Load, Structural Control and Health Monitoring, 2023, 2023(5806751). (SCI) Chengyin Liu*, Yipeng Zhu, Hui Ye. Bridge frequency identification based on relative displacement of axle and contact point using tire pressure monitoring, Mechanical Systems and Signal Processing, 183(2023):109613. (SCI) Qing Zeng, Chengyin Liu, Zhongdong Duan, Jiazhi Yang, Tao Chen and Song Wang. An Algebraic Elimination by Substitution Algorithm for Vehicle–Bridge Interaction Problems, International Journal of Structural Stability and Dynamics, (2022): 2250176. Chengyin Liu, Yi Gong, Zhaoshuo Jiang*, and Kai Guo. Buffeting analysis of a suspension bridge under construction based on adjacent wind field data, Engineering Structures, 251（2021）:113490. (SCI) Chengyin Liu, Zhaoshuo Jiang*, Yi Gong and Yongfeng Xiao. A two-stage optimal sensor placement method for multi-type structural response reconstruction, Measurement Science and Technology, 32 (2021): 035114. (SCI) Chengyin Liu, Zhaoshuo Jiang*, Haichang Yu. Safety analysis for bridge pier under nearby road construction and operation, Measurement, 151（2020）: 107169.(SCI) Chengyin Liu, Jun Teng, Zhen Peng*. Optimal sensor placement for bridge damage detection using deflection influence line. Smart Structures and Systems, Vol. 25, No. 2 (2020) 169-181. (SCI) Chengyin Liu, Zhaoshuo Jiang*, Xishuang Han, Wanxi Zhou. Slope displacement prediction using sequential intelligent computing algorithms. Measurement, 134 (2019) 634–648. (SCI) Kun Fang, Chengyin Liu* and Jun Teng. Cluster-based optimal wireless sensor deployment for structural health monitoring. Structural Health Monitoring, 2017, February, DOI: 10.1177/1475921717689967. (SCI) Chengyin Liu, Zhaoshuo Jiang*, Fei Wang, and Hui Chen. Energy-Efficient Heterogeneous Wireless Sensor Deployment with Multiple Objectives for Structural Health Monitoring. Sensors, 2016, 16(11): 1865. (SCI) Chengyin Liu, Yin Xu* and Xingle Ji. An improved frequency-domain regression method for structural damage detection in wireless sensor network. Advances in Mechanical Engineering, 2016, 8(10): 1–13. (SCI) Chengyin Liu, Chunchuan Xu*, and Jun Teng. Improvement of decentralized random decrement technique for data processing in wireless sensor network. Earthquake Engineering and Engineering Vibration, 2016, 15(3): 627-635. (SCI) Chengyin Liu*, Kun Fang and Jun Teng. Optimum wireless sensor deployment scheme for structural health monitoring: a simulation study. Smart Materials and Structures, 2015, 24(11): 115034. (SCI) Chengyin Liu*, Jun Teng, Ning Wu. A Wireless Strain Sensor Network for Structural Health Monitoring，Shock and Vibration, Article ID 740471,2015. (SCI) Chengyin Liu*, Jun Teng. Modal analysis of a cable-stayed bridge model using a modified ibrahim time domain algorithm，Journal of Vibroengineering. 16(6), pp 3033-3044, 2014. (SCI) Chengyin Liu*, Jun Teng. Structural Damage Identification Based on Rough Sets and Artificial Neural Network. Scientific World Journal, Volume 2014, Article ID 193284, 9 pages, 2014. (SCI) Ning Wu, Chengyin Liu*, et al. On-Board Computing for Structural Health Monitoring with Smart Wireless Sensors by Modal Identification Using Hilbert-Huang Transform, Mathematical Problems in Engineering, DOI:10.1155/2013/509129, 2013. (SCI) Chengyin Liu*, Xianyin He. Wireless Sensor Integration for Bridge Health Monitoring, Journal of Vibroengineering, 5(2), pp 1028-1040, 2013. (SCI) Chengyin Liu, John DeWolf & Joeng Ho Kim. “Development of a New Cracked Mindlin Plate Element”. ISRN Civil Engineering Volume 2011 (2011), Article ID 842572, 11 pages doi:10.5402/2011/842572. Chengyin Liu, John DeWolf & Joeng Ho Kim. “Development a Baseline for Structural Health Monitoring and Seismic Evaluation for a Curved Post-tensioned Concrete Box-Girder Bridge”. Journal of Engineering Structures. 2009, Vol. 31(12): 3107-3115. (SCI) Chengyin Liu, Josh Olund, Alan Cardini, Paul D’Attilio, Eric Feldblum & John DeWolf. “Structural health monitoring of bridges in the State of Connecticut”. Journal of Earthquake Engineering and Engineering Vibration. 2008, Vol. 7(4): 427-437. (SCI) Chengyin Liu & John DeWolf. “Effect of Temperature on Modal Variability of a Curved Concrete Bridge under Ambient Loads”. ASCE Journal of Structural Engineering. 2007, Vol. 133(12): 1742-1751.(SCI) 刘健，晏铖，方其样，柳成荫*. 基于响应面与JC法结合的大跨度桥梁可靠度分析，桥梁建设，2022，52（4）：32-39.(EI) 柳成荫，龚毅，曾清*，乔志浩. 基于双轴车-桥接触力灵敏度的桥梁损伤识别，振动工程学报， 2021: 1201.(EI) 晏铖，韩晓强，徐伟杰，杨彦海，魏强，柳成荫. 列车荷载作用下平行钢丝拉索疲劳寿命评估，铁道建筑，2022,62（3）: 88-93. 会议论文及发表演说 Zhao Lu, Chengyin Liu*, Xishuang Han，Jiandong Peng. Slope stability analysis and early warning via WSN technique，The 24th Australasian Conference on the Mechanics of Structures and Materials, Dec. 6-9, Perth, Australia, 2016. Chengyin Liu*, Xishuang Han. A Novel Structural Damage Detection Method Using Wireless Sensor Networks. The 14th International Symposium on Structural Engineering, Oct. 12-15, Beijing, 2016. (ISTP) Chengyin Liu* and Kun Fang. Optimization of wireless sensor deployment for structural health monitoring. The Second International Symposium on Life-Cycle Performance of Bridges and Structures. Dec. 18-20, 2015, Changsha, China, 2015. Chengyin Liu*, Chunchuan Xu and Xingle Ji. Regression-based Techniques for Structural Damage Identification in Wireless Sensor Networks. The 6th International Symposium on Innovation & Sustainability of Structures in Civil Engineering, July 26-27, Beijing, China, 2015. (ISTP) Chengyin Liu, Jun Teng et al. “Dynamical Monitoring of an Experimental Cable-Stayed Bridge Model Using Wireless Sensor Network”. in the Proceedings of ASCE Earth and Space 2012 Conference, Pasadena, California, 2012. Chengyin Liu, Haijing Zhang, Xianyin He, and Yukun Guo. “Dynamical Testing of a Cable-stayed Bridge Model Using Wireless Sensor Network”. Proceedings of Twelfth International Symposium of Structural Engineering, Wuhan, 2012. (ISTP) Chengyin Liu, John DeWolf and Jeong-Ho Kim. “A New Cracked Mindlin Plate Element”. proceedings of International Symposium on Innovation & Sustainability of Structures in Civil Engineering, Xiamen, 2011. (ISTP) Chengyin Liu, Paul D’Attilio, Eric Feldblum & John DeWolf. “Baseline Study for Bridge Health Monitoring”. in the Proceedings of Eleventh International Symposium of Structural Engineering, Guangzhou, 2010.

学术兼职

美国注册土木工程师(P.E.)，美国土木工程师学会(ASCE)会员，国际智能基础设施结构健康监测学会(ISHMII)会员，国际桥梁工程协会（IBE）会员，中国振动工程学会结构抗振控制与健康监测青年委员会委员，中国“双法”应急管理专业委员会委员，深圳市土木建筑学会结构专业委员会委员