Professor

Phone: (+86) 15871682060

Email: wxg0220@126.com

Academic Areas: Project Management

Research Interests: Project Management, Engineering Safety Management, Engineering Sustainable Development

Academic Degrees

  • Doctor Degree, 2002, Huazhong University of Science and Technology

  • Master Degree, 1991, Tsinghua University

  • Bachelor Degree, 1985, Wuhan University

Professional Experience

  • Professor (2007-present); Huazhong University of Science and Technology

  • Associate Professor (1997-2007); Huazhong University of Science and Technology

  • Assistant Professor (1991-1997); Huazhong University of Science and Technology

Selected Publications

  • 1. Limao Zhang, Xianguo Wu*, Miroslaw J. Skibniewski. Bayesian-Network-based safety risk analysis inconstruction projects. Reliability Engineering & System Safety. 2014(13):29-39.(SCI, A)

  • 2. Limao Zhang, Xianguo Wu*, Yueqing Chen, Miroslaw J. Skibniewski. Safety management for adjacent buildingsin tunneling environments: case study of Wuhan metro construction in China.Building and Environment. 2014(75):222-235. (SCI, A)

  • 3. Limao Zhang, Xianguo Wu*, Lieyun Ding, Miroslaw J. Skibniewski. Decision Support Analysis for Safety Control in Complex Project Environments Based on Bayesian Networks. Expert Systems with Applications.2013 (40): 4273-4282. (SCI, A)

  • 4. Limao Zhang, Xianguo Wu*, Lieyun Ding, Miroslaw J. Skibniewski. A Novel Model for Risk Assessment of Adjacent Buildings in Tunneling Environments. Building and Environment. 2013(65):185-194. (SCI, A)

  • 5. Limao Zhang, Xianguo Wu, et al. BIM-based Risk Identification System in Tunnel Construction. Journal of Civil Engineering and Management. 2014. (SCI, A)

  • 6. Lieyun Ding, Xianguo Wu*, Heng Li, Hanbin Luo. Study on safety control for Wuhan metro construction in complex environments. International Journal of Project Management. 2011, 29(7):797-807. (SCI, B)

  • 7. Limao Zhang, Miroslaw J.Skibniewski, Xianguo Wu*, Yueqing Chen, Qianli Deng. A probabilistic approach for safety risk analysis in metro construction. Safety Science. 2014(63): 8-17.(SCI, B)

  • 8. Lieyun Ding, Limao Zhang, Xianguo Wu*, Miroslaw J. Skibniewski, Yu Qunzhou. Safety Management in Tunnel Construction: Case Study of Wuhan Metro Construction in China. Safety Science. 2014(62): 8-15. (SCI, B)

  • 9. Xianguo Wu, Huitao Liu, Limao Zhang, Miroslaw J. Skibniewski. A Safety Assurance Approach for Existing Bridges in Metro Construction: A Case Study in China. Safety Science. 2014(63):8-17. (SCI, B)

  • 10. Jiaying teng, Xianguo Wu. Eco-footprint-based life-cycle eco-efficiency assessment of building projects. Ecological Indicators. 2014(63): 8-17. (SCI, B)

  • 11. Limao Zhang, Xianguo Wu*, Lieyun Ding, Miroslaw J. Skibniewski. A Dynamic Decision Approach for Risk Analysis in Complex Projects. Journal of Intelligent & Robotics Systems. 2014 (SCI, C)

  • 12. 吴贤国曹靖张立茂宋若昕刘倩.基于云模型的地铁施工地表变形风险推理分析. 土木工程与管理学报.2013 30(4):55-67

  • 13. 吴贤国,丁保军,张立茂,陈跃庆. 基于贝叶斯网络的地铁施工风险管理研究.中国安全科学学报.2014,24(1):84-89

  • 14. 吴贤国,刘惠涛,张立茂*,姚春桥,蒋雪. 地铁施工安全组织管理影响因素分析[J]. 土木工程与管理学报,2012(04):79-83+93.

  • 15. 吴贤国*,陈跃庆,张立茂,姚春桥. 地铁工程施工安全监控预警管理及评价标准研究[J]. 铁道工程学报,2013(05):107-111.

  • 16. 吴贤国,曹靖,张立茂*,宋若昕,刘倩. 基于云模型的地铁施工地表变形风险推理分析[J]. 土木工程与管理学报,2013(04):55-60+67.

  • 17. 吴贤国*,曾铁梅,张立茂,宋若昕. 地铁施工邻近管线安全风险管理研究[J]. 铁道工程学报,2013(09):127-132.

  • 18. 吴贤国*,蒋雪,张立茂,蒋乐,周俊,周格迁. BT模式在基础设施建设中的关键问题及对策[J]. 铁道工程学报,2013(11):107-111+116.

  • 19. 张立茂*,吴贤国,蒲晓燕,蒋乐,周俊. BT项目全面风险管理体系研究[J].建筑经济,2011(05):68-71.

  • 20. 张立茂*,陈虹宇,吴贤国. 基于贝叶斯网络的复杂工程安全管理决策支持方法研究[J]. 中国安全科学学报,2011(06):141-146.

  • 21. 吴贤国*,张立茂,余宏亮,余明辉. 基于知识集成的地铁施工安全风险识别专家系统研究[J]. 施工技术,2012(13):104-108.

  • 22. 吴贤国*,张立茂,陈跃庆. 地铁施工邻近桥梁安全风险管理研究[J]. 铁道工程学报,2012 (07):87-92.

  • 23. 滕佳颖,吴贤国,翟海周,丁保军等. 基于BIM和多方合同的IPD协同管理框架. 土木工程与管理学报. 2013, 30(2):81-84.

  • 24. 余宏亮,吴贤国,刘博. CBR-RBR混合模式在地铁工程施工安全事故案例库中的应用研究. 施工技术2013,42(7):102-105.

  • 25. 吴贤国,蒋雪,张立茂,蒋乐,周俊,周格迁. BT模式在基础设施建设中的关键问题及对策. 铁道工程学报. 2013(11): 26-30.

  • 26. 吴贤国,地铁施工安全组织管理影响因素分析,土木工程与管理学报,2012(12):23-27

  • 27. 郭俊礼, 滕佳颖,吴贤国等. 基于BIM的IPD建设项目协同管理方法研究,施工技术,2012(22):23-27.

  • 28. 李炜明, 朱宏平, 吴贤国. 未知激励下框架结构系统辨识的特征系统实现算法,振动与冲击,2010(8):228-231.

  • 29. 丁烈云,李炜明,吴贤国. 地铁循礼门车站深基坑施工监测分析,铁道工程学报,2010(9):74-81.

  • 30. 丁烈云,李炜明,吴贤国. 武汉地铁施工对轻轨桥梁影响的数值与监测分析,铁道工程学报,2010(11):87-90

  • 31. 丁烈云吴贤国等. 地铁工程施工安全评价标准研究. 土木工程学报,2011,44(11):121-127.

  • 32. 吴贤国等. 某地铁深基坑施工中广电大楼的沉降控制. 土木工程学报,2011,44(S1):177-181.

  • 33. 吴贤国, 丁烈云, 陈丹, 周迎, 骆汉宾. 我国地铁工程建设管理模式研究,建筑经济,2010(7):95-98.

  • 34. 吴贤国,陈晓阳,丁烈云,骆汉宾. 地铁隧道施工邻近建筑物安全风险等级评价,施工技术,2011,40(4):78-80.

  • 35. 吴贤国,王瑞,陈跃庆,陈丹. 城市大型交通工程建设项目社会风险评价研究,华中科技大学学报(城市科学版),2009(12):25-28.

  • 36. 吴贤国等. 长江隧道盾构施工对建筑物影响和保护研究.铁道工程学报,2008(6):23-27.

  • 37. 吴贤国等. 城市轨道交通融资模式研究.施工技术,2008(2):19-21.

  • 38. 吴贤国等. 绿色建筑评价体系研究.建筑经济,2008(6):33-36.

  • 39. 吴贤国等. 工程失败原因分析及失败知识管理. 建筑经济,2007(2):43-46.

  • 40. 吴贤国等. 武汉长江隧道工程盾构施工风险研究.中国市政工程,2007(1):51-54.

  • 41. 孙丰旋,吴贤国. BOT与PFI融资模式的比较研究. 价值工程, 2006.11:130-132.

  • 42. 李筱华,吴贤国. 工程失败判别指标及影响因素.建筑技术,2006(2)102-105.

  • 43. 吴贤国等. 长江隧道施工期间鲁兹故居加固及变形监测警戒值.施工技术,2006,35:167-169.

  • 44. 吴贤国,王耀华,骆汉宾. 基于事件的项目学习方法.华中科技大学学报(城市科学版), 2005,22(4):40-43.

Awards and Honors

  • Hubei province scientific and technological progress Award, 2005, Integrated digital key technologies and applications on metro project construction

  • Hubei province scientific and technological progress Award, 2011, Post-evaluation system research and application of urban infrastructure and public service project

  • The ministry of education of science and technology progress Award, 2013, Metro engineering construction safety risk control research complex environment

Courses Taught

  • Civil Engineering Construction 

  • Engineering Economy 

  • Project Management

  • Operations Research 

Project

  • 1. Key techniques of the Yangtze river tunnel construction

  • 2. Real-time decision support analysis on environment safety control in metro tunneling based on uncertainty theory and Bayesian network

  • 3. Research on the Yangtze river tunnel shield construction induced deformation mechanism and disaster prevention control

  • 4. Deformation of metro tunnel construction adjacent building safety early warning research based on Bayesian network

  • 5. The pipeline safety early warning research near the metro shield tunnel construction

  • 6. Based on data mining of metro construction safety early warning research

  • 7. Engineering sustainable development

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