苏 成
发布时间: 2017-08-13

苏成,工学博士,男,汉族,广东潮阳人,1968 年生。华南理工大学土木与交通学院教授,博士生导师,政府特殊津贴专家。1990 年毕业于华南理工大学工程力学专业,获工学学士学位;1993 年毕业于华南理工大学结构力学专业, 获工学硕士学位;1997 年毕业于华南理工大学结构工程专业,获工学博士学位。1993-1994 年在深圳市建筑设计院从事结构设计和工程监理工作,1994 年 7 月调入华南理工大学建筑工程系(现土木工程系)从事教学和科研工作,1998-2002 年期间曾三次前往香港大学土木工程系进行合作研究。2004 年 3 月晋升为教授, 同年被批准为博士生导师。2008 年-2017 年任华南理工大学土木与交通学院院长。


现任华南理工大学校长助理、亚热带建筑科学国家重点实验室副主任、风工程广东高校重点实验室主任、“结构防灾减灾计算理论与健康监测”学科团队负责人。兼任国际计算力学协会会员、中国土木工程学会第九届理事会理事、中国振动工程学会第八届理事会理事、中国振动工程学会第八届随机振动专业委员会副主任委员、中国振动工程学会第五届结构动力学专业委员会副主任委员、中国力学学会第九届计算力学专业委员会委员、中国工程建设标准化协会第六届建筑振动专业委员会委员、中国海洋工程咨询协会第二届理事会理事、南方计算力学联络委员会副主任委员、广东省土木建筑学会第五届理事会常务理事、广东省公路学会桥梁工程专业委员会第七届理事会副理事长、广东省力学学会第九届理事会常务理事,以及国际学术期刊 Journal of Sound and Vibration 顾问编委、《建筑结构学报》第七届编委、《应用数学和力学》第六届编委。


先后主讲了《弹性力学》、《高等材料力学》、《结构力学》(全英课程)等本科生课程,以及《结构工程塑性力学》、《结构抗震理论》、《风工程与结构抗风理论》、《桥梁施工监控与施工技术》、《半解析计算力学理论》等硕士生和博士生课程。2000 年被评为广东省“南粤优秀教师”,2017 年获华南理工大学第八届校级教学成果奖特等奖,同年获广东省教育教学成果奖(高等教育)一等奖。


主要研究方向包括结构随机振动、结构抗震与抗风、结构健康监测、随机计算力学、工程管理信息化等。在 ASCE Journal of Engineering Mechanics、ASCE Journal of Bridge Engineering、ASCE Journal of Construction Engineering and Management、ICE Structures and Buildings、ICE Bridge Engineering, Bulletin of Earthquake Engineering、Structural Safety、Probabilistic Engineering Mechanics、Computers and Structures、Engineering Structures、Nonlinear Dynamics、Journal of Sound and Vibration、Engineering Analysis with Boundary Elements, 以及《土木工程学报》、《建筑结构学报》、《中国公路学报》、《力学学报》、《振动工程学报》,《应用数学和力学》、《计算力学学报》、《工程力学》等国内外学术期刊及学术会议上发表论文 230 余篇,其中被 SCI 和 EI 收录论文 100 余篇,两篇论文分别评为《应用数学和力学》2019 年度高被引论文和《计算力学学报》2015 年-2019年高影响力论文。获中国土木工程詹天佑奖 1 项,中国公路学会科技奖励一等奖2 项,中国公路建设行业协会科学技术进步奖一等奖 1 项,广东省科技奖励一等奖 2 项、二等奖 2 项、三等奖 2 项,广州市科技奖励二等奖 2 项、三等奖 1 项。2010 年获英国土木工程师协会 Frederick Palmer 奖。


主持开展了“大跨度预应力混凝土斜拉桥施工监控可靠度研究”、“大型复杂减隔震结构非线性随机振动时域显式方法研究”、“非平稳地震激励下结构减震随机优化设计方法研究”等国家自然科学基金面上项目,以及“面向区域级结构健康监测与安全评估的 CLOUD-BIM 决策支持平台关键技术研究”等省市重点科研项目。完成了多项大型土木工程的抗震与抗风、施工监控与健康监测的科研服务工作,主要工程包括广州国际会议展览中心、广州新体育馆、广州新图书馆、广州市城市规划展览中心、深圳宝安体育场、深圳大疆天空之城、香港汀九大桥、广州南沙大桥、广州新光大桥、广州黄埔大桥、广州鹤洞大桥、广州南二环甘竹溪大桥、佛山龙湾大桥、新会崖门大桥等。


联系电话:020-87111636

电子邮箱:cvchsu@scut.edu.cn

通讯地址:广州市天河区五山路 381 号华南理工大学七号楼 7210 室邮编:510640


附:主要国际学术期刊论文

[1]Jianhua Xian, Cheng Su*, Stochastic optimization of uncertain viscous dampers for energy-dissipation structures under random seismic excitations, Mechanical Systems and Signal Processing, 164, 2022: 108208

[2]Yingxiong Li, Cheng Su*, Stochastic evolution mechanism in random thermoelastic vibration captured using the explicit time-domain method,International Journal of Mechanical Sciences, 205, 2021: 106616

[3]Wei Lin, Cheng Su*, An efficient Monte-Carlo Simulation for dynamic reliability analysis of jacket platforms subjected to random wave loads, Journal of Marine Science and Engineering, 9, 2021: 380

[4]Xianqi Deng, Cheng Su*, Haitao Ma, Green’s function method for modal analysis of structures with interval parameters, Journal of Engineering Mathematics, 127, 2021: 22

[5]Zaolin Pan, Cheng Su, Yichuan Deng*, Jack Cheng, Video2Entities: A computer vision-based entity extraction framework for updating the architecture, engineering and construction industry knowledge graphs, Automation in Construction, 125, 2021: 103617

[6]Cheng Su*, Jianhua Xian, Huan Huang, An iterative equivalent linearization approach for stochastic sensitivity analysis of hysteretic systems under seismic excitations based on explicit time-domain method, Computers & Structures, 242, 2021: 106396

[7]Jianhua Xian, Cheng Su*, Houzuo Guo, Seismic reliability analysis of energy-dissipation structures by combining probability density evolution method and explicit time-domain method, Structural Safety, 88, 2021: 102010

[8]Cheng Su*, Zhenzhen Wu, Jianhua Xian, Stochastic dynamic analysis of vehicle-bridge coupled systems with nonlinear Hertz contacts by explicit time-domain method, Vehicle System Dynamics, 2020 (doi: 10.1080/00423114.2020.1864418)

[9]Wei Lin, Cheng Su*, Youhong Tang, Explicit time-domain approach for random vibration analysis of jacket platforms subjected to wave loads, Journal of Marine Science and Engineering, 8, 2020: 1001

[10]Jianhua Xian, Cheng Su*, Billie F. Spencer, Stochastic sensitivity analysis of energy-dissipating structures with nonlinear viscous dampers by efficient equivalent linearization technique based on explicit time-domain method, Probabilistic Engineering Mechanics, 61, 2020: 103080

[11]Z.W. Guan*, A.S. Al-Husainy, Q.Y. Wang, S.W. Jones, C. Su, L.Q. Liu, Numerical modeling of recycled and normal aggregate CFRP-strengthened concrete-filled steel columns subjected to lateral impact, Journal of Composites for Construction, 24(5), 2020: 4020048

[12]He-Qing Mu, Zhen-Jie Zheng, Xiao-Huan Wu and Cheng Su*, Bayesian network-based modal frequency-multiple environmental factors pattern recognition for the Xinguang Bridge using long-term monitoring data, Journal of Low Frequency Noise Vibration and Active Control, 39(3), 2020: 545-559

[13]Hui Deng, Hao Hong, Dehuan Luo, Yichuan Deng*, Cheng Su, Automatic Indoor Construction Process Monitoring for Tiles based on BIM and Computer Vision, Journal of Construction Engineering and Management, ASCE, 146(1), 2020: 04019095

[14]Houzuo Guo, Cheng Su*, Jianhua Xan, Stochastic transient analysis of thermal stresses in solids by explicit time domain method, Theoretical and Applied Mechanics Letters, (9), 2019: 293-296

[15]Zhi Xu, Miao Chen, Cheng Su*, Xueming Fan, Zhongwei Guan, Dynamic analysis of multi-crack problems by the spline fictitious boundary element method based on Erdogan fundamental solutions, Engineering Analysis with Boundary Elements, 107, 2019: 33-46

[16]Cheng Su*, Zhijian Huang, Jianhua Xian, A modified response spectrum method based on uniform probability spectrum, Bulletin of Earthquake Engineering, 17(2), 2019: 657-680

[17]He-Qing Mu, Houzuo Guo, Tianyu Zhang, Cheng Su*, A parametric study of bridge load effect under stochastic vehicular load, International Journal of Lifecycle Performance Engineering, 3(1), 2019: 77-90

[18]He-Qing Mu, Qin Hu*, Houzuo Guo, Tianyu Zhang, Cheng Su, Uncertainty quantification of load effects under stochastic traffic flows, International Journal of Structural Stability and Dynamics, 19(1), 2019: 1940009

[19]Cheng Su*, Baomu Li, Taicong Chen, Xihua Dai, Stochastic optimal design of nonlinear viscous dampers for large-scale structures subjected to non-stationary seismic excitations based on dimension-reduced explicit method, Engineering Structures, 175, 2018: 217-230

[20]Cheng Su*, Xiaolu Liu, Baomu Li, Zhijian Huang, Inelastic response analysis of bridges subjected to non-stationary seismic excitations by efficient MCS based on explicit time-domain method, Nonlinear Dynamics, 94(3), 2018: 2097-2114

[21]Zhi Xu, Cheng Su*, Zhongwei Guan, Analysis of multi-crack problems by the spline fictitious boundary element method based on Erdogan fundamental solutions, Acta Mechanica, 229(8), 2018: 3257-3278

[22]Zhiqiang Hu, Ziqi Wang, Cheng Su, Haitao Ma*, Reliability based structural topology optimization considering non-stationary stochastic excitations, Journal of Civil Engineering, KSCE, 22(3), 2018: 993-1001

[23]Cheng Su, Zhongshan Qin, Xueming Fan*, Stochastic spline fictitious boundary element method for random vibration analysis of plane elastic problems with structural uncertainties, Probabilistic Engineering Mechanics, 49, 2017: 22-37

[24]Hui Deng, Hongyang Terry Li*, Cheng Su, Yiping Jiang, Monitoring and analyzing displacement of large-span spoke-type cable structure roof, Journal of Surveying Engineering, ASCE, 143(4), 2017: 060170012017

[25]Jiazhan Su, Yong Xia*, Yiqing Ni, Linren Zhou, Cheng Su, Field monitoring and numerical simulation of the thermal actions of a supertall structure, Structural Control and Health Monitoring, 24, 2017: e1900. DOI: 10.1002/stc.1900

[26]Zhiqiang Hu, Cheng Su*, Taicong Chen, Haitao Ma, An explicit time-domain approach for sensitivity analysis of non-stationary random vibration problems, Journal of Sound and Vibration, 382, 2016: 122-139

[27]Cheng Su*, Huan Huang, Haitao Ma, Fast equivalent linearization method for nonlinear structures under non-stationary random excitations, Journal of Engineering Mechanics, ASCE, 142(8), 2016: 04016049

[28]Cheng Su, Zhongshan Qin, Xueming Fan*, Stochastic spline fictitious boundary element method for modal analysis of plane elastic problems with random fields, Engineering Analysis with Boundary Elements, 66, 2016: 66-76

[29]Cheng Su*, Wei Liao, Lin Tan, Ran Chen, Reliability-based damage identification using dynamic signatures, Journal of Bridge Engineering, ASCE, 21(3), 2016: 04015058

[30]Cheng Su*, Jia Xu, Stochastic spline fictitious boundary element method for analysis of thin plate bending problems with random fields, Engineering Analysis with Boundary Elements, 58, 2015: 86-98

[31]Ting Huang, Yixia Zhang*, Cheng Su, S. R. Lo, Effect of slip-hardening interface behavior on fiber rupture and crack bridging in fiber-reinforced cementitious composites, Journal of Engineering Mechanics, ASCE, 141(10), 2015: 04015035

[32]Cheng Su*, Xueming Fan, Haitao Ma, Zhiyong Gu, Green's function method for stability analysis of stochastic structures, Journal of Engineering MechanicsASCE, 141(3), 2015: 04014121

[33]Cheng Su*, Xiaofeng Chen, Junjie Luo, Buffeting reliability of bridges with structural uncertainties, Bridge Engineering, ICE, 168(1), 2015: 30-42

[34]Cheng Su*, Jia Xu, Reliability analysis of Reissner plate bending problems by stochastic spline fictitious boundary element method, Engineering Analysis with Boundary Elements, 51, 2015: 37–43

[35]Cheng Su*, Huan Huang, Haitao Ma, Rui Xu, Efficient MCS for random vibration of hysteretic systems by an explicit iteration approach, Earthquakes and Structures, 7(2), 2014: 119-139

[36]Cheng Su*, Rui Xu, Random vibration analysis of structures by a time-domain explicit formulation method, Structural Engineering and Mechanics, 52 (2), 2014: 239-260

[37]Cheng Su*, Junjie Luo, Chunfa Xiao, An efficient approach for reliability assessments on aero-instability of long-span bridges, Journal of Bridge Engineering, ASCE, 18(6), 2013: 570-575

[38]Junjie Luo*, Cheng Su, Dajian Han, A simulation methodology of the stationary non-Gaussian stochastic wind pressure field, Probabilistic Engineering Mechanics, 30, 2012: 77-88

[39]Cheng Su*, Chun Zheng, Probabilistic fracture mechanics analysis of linear-elastic cracked structures by spline fictitious boundary element method, Engineering Analysis with Boundary Elements, 36(12), 2012: 1828–1837

[40]Cheng Su*, Shuwei Zhao, Stochastic spline fictitious boundary element method in elastostatic problems with random fields, Engineering Analysis with Boundary Elements, 36(5), 2012: 759-771

[41]Cheng Su*, Shuwei Zhao, Haitao Ma, Reliability analysis of plane elasticity problems by stochastic spline fictitious boundary element method, Engineering Analysis with Boundary Elements, 36(2), 2012: 118-124

[42]Cheng Su*, Zhaoshuan Chen, Zhihui Chen, Reliability of construction control of cable-stayed bridges, Bridge Engineering, ICE, 164(1), 2011: 15-22

[43]Cheng Su*, Xiufeng Luo, Tianquan Yun, Aerostatic reliability analysis of long-span bridges, Journal of Bridge Engineering, ASCE, 15(3), 2010: 260-268

[44]Haitao Ma, Cheng Su*, Zhijian Huang, A new approach to aerostatic analysis of long-span bridges, Structures and Buildings, ICE, 162(SB2), 2009: 129-135

[45]Cheng Su*, Xueming Fan, Tao He, Wind-induced vibration analysis of a cable-stayed bridge during erection by a modified time-domain method, Journal of Sound and Vibration, 303(1-2), 2007: 330-342

[46]C. Su, D.J. Han and Q.S. Yan, F.T.K. Au*, L.G. Tham, P.K.K. Lee and K.M. Lam, K.Y. Wong, Wind-induced vibration analysis of the Hong Kong Ting Kau Bridge, Structures and Buildings, ICE, 156(SB3), 2003: 263-272

[47]F.T.K. Au*, L.G. Tham and P.K.K. Lee, C. Su, D.J. Han and Q.S. Yan, K.Y. Wong, Ambient vibration measurements and finite element modelling for the Hong Kong Ting Kau Bridge, Structural Engineering and Mechanics, 15(1), 2003: 115-134

[48]Cheng Su*, Dajian Han, Elastic analysis of orthotropic plane problems by the spline fictitious boundary element method, Applied Mathematics and Mechanics, 23(4), 2002: 446-453

[49]Cheng Su*, Dajian Han, Multidomain SFBEM and its application in elastic plane problems, Journal of Engineering Mechanics, ASCE, 126(10), 2000: 1057-1063

[50]Tianquan Yun*, Cheng Su, Analysis of shaft embedded in granular half space by line-loaded integral equation method, Computers & Structures, 43(4), 1992: 729-735