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1. Wu, Wenhua,Lyu, Baicheng,Yao, Ji,Yue, Qianjin,Zhang Yantao,Guo, Xinglin.STUDY ON THE MULTI-BODY DYNAMIC CHARACTERISTICS OF FPSO SOFT YOKE MOORING SYSTEM BASED ON SYMPLECTIC ALGORITHM[A],2019
2. Liu, Ming,Yu, Siyuan,Wu, Wenhua,Naess, Arvid.Current models for strength and dynamic design of underwater structures[J],OCEAN ENGINEERING,2019,186
3. 冯加果,谢彬,谢文会,王世圣,武文华.深水浮式平台监测系统研制及应用[J],舰船科学技术,2019,41(3):118-121
4. 武文华,唐达,崔晓伟,王世圣,冯加果.Motion Characteristic Analysis of a Floating Structure in the South China Sea Based on Prototype Monitoring [J],Journal of Offshore Mechanics and Arctic Engineering,2018
5. 武文华,刘明,于思源,王延林.Current model analysis of South China Sea based on Empirical Orthogonal Function (EOF) Decomposition and Prototype Monitoring Data[J],Journal of Ocean University of China,2018
6. Guo, P., Wu, W.H., Zhao, J., 2017. Modelling of Generalised Thermoelastic Wave Propagation of Multilayer Material under Thermal Shock Behaviour. Shock and Vibration, 9.
7. Liu, K.H., Ma, S.Y., Wu, Z.J., Zheng, Y.B., Qu, X.X., Wang, Y.S., Wu, W.H., A novel probability-based diagnostic imaging with weight compensation for damage localization using guided waves. Structural Health Monitoring-an International Journal, 2016. 15(2): p. 162-173.
8. Wu, W.H., Feng, J.G., Xie, B., Tang, D., Yue, Q.J., Xie, R.B., Development and Sensing Properties Study of Underwater Assembled Water Depth-Inclination Sensors for a Multi-Component Mooring System, Using a Self-Contained Technique. Sensors, 2016. 16(11): p. 16.
9. Wu, W.H., Wang, Y.L., Tang, D., Yue, Q.J., Yu,D., Fan, Z.L., Lin, Y., Design, implementation and analysis of full coupled monitoring system of FPSO with soft yoke mooring system. Ocean Engineering, 2016. 113: p. 255-263.
10. Du, Y., , Wu, W.H., Tang, D., Yue, Q.J., Li, F., and Xie,R.B., A novel underwater measurement method for mooring system using self-contained technique. Advances in Mechanical Engineering, 2015. 7(5): p. 12.
11. Tang, D., Xu, C.C., Yue, Q.J., Wu, W.H., Shi, Z.M., Feng, J.G., Single point mooring system modal parameter identification based on empirical mode decomposition and time-varying autoregressive model. Applied Ocean Research, 2015. 53: p. 250-256.
12. Wu, W.H., P. Hu, and G.Z. Shen, Thermomechanical-Phase Transformation Simulation of High-Strength Steel in Hot Stamping. Mathematical Problems in Engineering, 2015: p. 12.
13. Guo, P., Wu, W.H., Wu, Z.G., 2014. A time discontinuous Galerkin finite element method for generalized thermo-elastic wave analysis, considering non-Fourier effects. Acta Mechanica 225 (1), 299-307
14. Wu, W.H., Lv, B.C., Yue, Q.J., Zhang, Y.T., Lin, Y., 2017. Research on analytical method of fatigue characteristics of Soft Yoke Mooring System based on full-scale measurement. China Ocean Engineering 31 (2), 230-237.
15. Lyu, B.C., Wu, W.H., Yao, W.A., Du, Y., 2017. Lateral vibration behavior analysis and TLD vibration absorption design of the soft yoke single-point mooring system. China Ocean Engineering 31 (3), 284-290.
16. 杜宇, 武文华, 岳前进,等. 深水浮式平台原型监测技术[J]. 上海交通大学学报, 2016, 50(3):448-455.
17. 任 鹏,周 智,,武文华,欧进萍. 基于应变响应统计特征的海洋立管损伤诊断方法[J]. 振动与冲击, 2016, 36(1):161-166.
18. 杜宇, 武文华, 王延林,等. 基于自容式技术的系泊缆水下监测方法[J]. 哈尔滨工程大学学报, 2016, 37(8):1003-1008.
19. 洪非, 武文华, 杜宇,等. 深水铺管垂弯段屈曲状态的原型监测方法[J]. 浙江大学学报(工学版), 2015, 49(10):2018-2024.
20. 史栋勇, 盈亮, 胡平,等. 高强度钢板热成形三维温度场数值模拟分析[J]. 吉林大学学报(工), 2014, 44(4):946-952.
21. 郭攀, 武文华, 刘君,等. 激波作用下含缺陷固体火箭装药的流固耦合数值模拟[J]. 爆炸与冲击, 2014, 34(1):93-98.
22. 郭攀, 武文华, 吴志刚. 非傅里叶热弹性的时域间断迦辽金有限元方法[J]. 力学学报, 2013, 45(3):447-450.
23. 郭攀, 刘君, 武文华. 爆炸冲击载荷作用下流固耦合数值模拟[J]. 力学学报, 2013, 45(2):283-287.
24. 郭攀, 武文华, 刘君. 运动活塞的流固耦合数值模拟[J]. 固体力学学报, 2013(s1):171-175.
25. 郭攀, 武文华, 吴志刚. 改进时域间断Galerkin有限元方法在弹塑性波传播数值模拟中的应用[J]. 固体力学学报, 2013, 34(3):299-304.
26. 郭攀, 武文华, 吴志刚. 基于时域间断有限元方法的生物组织非傅立叶热行为数值分析[J]. 计算力学学报, 2013(4):538-542.
27. 姜大鑫,武文华,胡平. 高强度钢板热成形温度场数值模拟分析[J]. 工程力学,2013,30(01):419-424.
28. 吴志刚, 郭攀, 武文华. 时域间断Galerkin有限元法在激光热加工过程中应用[J]. 大连理工大学学报, 2012, 52(1):1-5.
29. 姜大鑫, 武文华, 胡平,等. 高强度钢板热成形热、力、相变数值模拟分析[J]. 机械工程学报, 2012, 48(12):18-23.
30. 白石,任鹏,周智,武文华,欧进萍. 基于Kalman滤波的有限测点桁架结构疲劳损伤监测[J]. 振动.测试与诊断,2017,37(05):941-947+1064-1065.
31. 杜宇,王延林,武文华,吕柏呈,岳前进,张立伟. 基于南海定点观测数据的强风场特性研究[J]. 海洋工程,2017,35(04):36-43.
32. 杜宇,武文华,岳前进,李锋,谢日彬,李平. 流花4-1油田海域近海面风场特性分析[J]. 大连理工大学学报,2015,55(06):568-574.
33. 楚锡华,徐远杰,武文华. 颗粒材料的数值样本描述及生成方法评述[J]. 武汉大学学报(工学版),2014,47(05):671-679.
34. 孙晔,武文华,樊哲良,岳前进. 虚拟样机技术在FPSO系泊力监测系统设计中的应用[J]. 计算机辅助工程,2014,23(04):30-34
35. 杜宇,武文华,王延林,岳前进,时忠民. “南海挑战号”半潜式平台原型测量系统[J]. 海洋工程,2014,32(03):1-7+21.
36. 杜宇,武文华,岳前进. 深海无肋锚链张力测量技术研究[J]. 中国海洋平台,2013,28(05):25-28.
37. 秦安壮,杨志勋,张明杰,武文华,张文首. 基于系统响应瞬时特性的非线性系统识别[J]. 大连理工大学学报,2017,57(03):221-226
38. 高令飞,李修峰,高振超,阎军,武文华. 电推卫星方圆过渡结构轻量化设计[J]. 计算机辅助工程,2016,25(05):1-6.
39. Wu W.H. Numerical modeling of non-Fourier thermal damage with time-dependent laser heat source, ICCM 2016.
40. Wu, W.H., Cui, X.W., Lv, B.C., Wang, S.S., Feng, J.G., Yue, Q.J., 2017. Motion Characteristic Analysis of a Floating Structure in the South China Sea Based on Prototype Monitoring, ASME 2017 International Conference on Ocean, Offshore and Arctic Engineering, p. V03AT02A019.
41. Yan, J., Yang, Z., Zhao, P., Lu, Q., Wu, W., Yue, Q., 2017. Reliability Optimization Design of the Steel Tube Umbilical Cross Section Based on Particle Swarm Algorithm, ASME 2017 International Conference on Ocean, Offshore and Arctic Engineering.
42. Wu, W.H., Lv, B.C., Li, W.Y., Wang Y.L., Yue, Q.J., Zhang, Y.T., FATIGUE LIFE ANALYSIS METHOD OF UPPER-HINGE JOINTS OF FPSO SYMS BASED ON REAL-TIME PROTO-TYPE MONITORING TECHNIQUE. Proceedings of the Asme 35th International Conference on Ocean, Offshore and Arctic Engineering , 2016, Vol 3. 2016, New York: Amer Soc Mechanical Engineers.
43. Du, Y., Wu, W.H., Wang Y.L., Yue, Q.J., PROTOTYPE DATA ANALYSIS ON LH11-1 SEMISUBMERSIBLE PLATFORM IN SOUTH CHINA SEA. 33rd International Conference on Ocean, Offshore and Arctic Engineering, 2014, Vol 1b. 2014, New York: Amer Soc Mechanical Engineers.
44. Du, Y., Wu, W.H., Yue, Q.J., Asme, 2013. Prototype measurement for deep water floating platforms based on monitoring technology. Amer Soc Mechanical Engineers, New York.