艾尚茂

• 1996.9-2000.6    武汉理工大学，工程力学专业，工学学士
• 2003.9-2006.3    哈尔滨工程大学，船舶与海洋结构物设计制造专业，工学硕士
• 2006.9-2010.3    哈尔滨工程大学，船舶与海洋结构物设计制造专业，工学博士

 [1] Depeng Liu, Shangmao Ai, Liping Sun, and C. Guedes Soares. 2024. Vortex-induced vibrations of catenary risers in varied flow angles. Int. J. Mech. Sci. (2024). DOI 10.1016/j.ijmecsci.2024.109086
 [2] Depeng Liu, Shaojie Li, Shangmao Ai, Liping Sun, and C. Guedes Soares. 2024. Fatigue analysis of steel catenary risers under coupled cross-flow and in-line vortex-induced vibrations with oblique incoming flow. Mar. Struct. (2024). DOI 10.1016/j.marstruc.2024.103578
 [3] 张子照, 张法富, 康庄, 孙丽萍, and 艾尚茂. 2024. 考虑轴向大拉伸下弹性模量对聚酯系泊动态响应的影响（英文）. J. Mar. Sci. Appl. (2024), 201-208.
 [4] Depeng Liu, Shangmao Ai, Zhuang Kang, and Liping Sun. 2023. Fatigue reliability assessment of offshore catenary risers conveying internal slug flow. Qual. Reliab. Eng. Int. (2023), 1994-2010. DOI 10.1002/qre.3366
 [5] Depeng Liu, Shangmao Ai, Liping Sun, and C. Guedes Soares. 2023. ALE-ANCF modeling of the lowering process of a J-lay pipeline coupled with dynamic positioning. Ocean Eng. (2023). DOI 10.1016/j.oceaneng.2022.113552
 [6] Zhuang Kang, Haibo Sui, and Shangmao Ai. 2023. Numerical and experimental research on the coupled motion responses of a Spar platform with a tender vessel during drilling scenarios. Ocean Eng. (2023). DOI 10.1016/j.oceaneng.2023.113687
 [7] Zhuang Kang, Rui Chang, and Shangmao Ai. 2023. Nonlinear dynamic characteristics analysis of the surge motion of a tender-assisted drilling operation system. Ships and Offshore Structures (2023), 2203595. DOI 10.1080/17445302.2023.2203595
 [8] Zhuang Kang, Haibo Sui, and Shangmao Ai. 2023. Numerical and Experimental Research on the Coupled Motion Responses of a Spar Platform with a Tender Vessel During Drilling Scenarios. Ocean Eng. (2023). DOI 10.2139/ssrn.4283552
 [9] Depeng Liu, Shangmao Ai, Liping Sun, and Carlos Guedes Soares. 2023. ALE-ANCF Modeling of J-Lay Lowering Process Coupled with Dynamic Positioning. Ocean Eng. (2023), 113552.
[10] Cong Yi, Jiayao Wei, Shangmao Ai, and Wangjian Cheng Multi-objective optimization of polyester mooring system based on particle swam optimization algorithm. International Society of Offshore and Polar Engineers, Shanghai, China, 2022.
[11] Ming Chen, Shangmao Ai, and Solomon C. Yim A COMBINED NONLINEAR MOORING-LINE and UMBILICAL CABLE DYNAMICS MODEL and APPLICATION. American Society of Mechanical Engineers (ASME), Hamburg, Germany, 2022.
[12] Depeng Liu, Shangmao Ai, Liping Sun, Jiayao Wei, and Ning He. 2021. Numerical modelling of offshore risers conveying slug flow under the ALE–ANCF framework. Ocean Eng. (2021). DOI 10.1016/j.oceaneng.2021.109415
[13] Cheng Zhang, Zhuang Kang, Yeping Xiong, Shangmao Ai, and Gang Ma. 2021. Experimental investigation on coupled cross-flow and in-line vortex-induced vibration responses of two staggered circular cylinders. Proceedings of the Institution of Mechanical Engineers Part M: Journal of Engineering for the Maritime Environment (2021), 288-300. DOI 10.1177/1475090220907473
[14] 刘红兵, 孙丽萍, 艾尚茂, 闫发锁, and 陈国明. 2021. 基于改进模态推覆法的导管架平台弹塑性抗震性能. 上海交通大学学报 (2021), 265-275.
[15] 刘德鹏, 艾尚茂, 孙丽萍, and 贾鲁生. 2021. 稳态段塞流对钢悬链立管动态响应的影响分析. 哈尔滨工程大学学报 (2021), 1573-1579.
[16] Tao Liu, Bo Pang, Shangmao Ai, and Xiaoqiang Sun. 2020. Study on visual detection algorithm of sea surface targets based on improved yolov3. Sensors (Switzerland) (2020), 1-14. DOI 10.3390/s20247263
[17] Depeng Liu, Shangmao Ai, and Liping Sun Dynamic modelling of deep-water riser with slug flow based on ale -ancf. American Society of Mechanical Engineers (ASME), Virtual, Online, 2020.
[18] Tao Liu, Ningning Wang, Lei Zhang, Shangmao Ai, and Hongwang Du. 2020. A novel visual measurement method for three-dimensional trajectory of underwater moving objects based on deep learning. IEEE Access (2020), 186376-186392. DOI 10.1109/ACCESS.2020.3029627
[19] Shangmao Ai, Ying Xu, Zhang Kang, and Fasuo Yan. 2019. Performance comparison of stress-objective and fatigue-objective optimisation for steel lazy wave risers. Ships Offshore Struct. (2019), 534-544. DOI 10.1080/17445302.2018.1522054
[20] 刘涛, 王宁宁, 张熠, and 艾尚茂. 2019. 一种水下运动物体三维轨迹视觉测量方法. 图学学报 (2019), 908-914.
[21] 艾尚茂, 刘德鹏, 李鹏, and 马刚. 2019. S型铺管瞬态张力对动力定位控制的影响（英文）. 船舶力学 (2019), 1099-1109.
[22] Shangmao Ai, Liping Sun, Longbin Tao, and Solomon C. Yim. 2018. Modeling and simulation of deepwater pipeline S-lay with coupled dynamic positioning. Journal of Offshore Mechanics and Arctic Engineering (2018). DOI 10.1115/1.4040049
[23] Liping Sun, Xiaomeng Zhu, Bin Li, and Shangmao Ai. 2018. Coupled dynamic analysis of deep-sea mining support vessel with dynamic positioning. Marine Georesources and Geotechnology (2018), 841-852. DOI 10.1080/1064119X.2017.1391901
[24] 孙丽萍, 朱枭猛, 艾尚茂, and 李彬. 2017. 水下设备悬垂法安装动力定位耦合数值模拟. 哈尔滨工程大学学报 (2017), 1689-1695.
[25] Liping Sun, Zhiqiang Wan, Shangmao Ai, and Jiaji Li Numerical analysis of gas leakage problem based on improved gas storage vessel leakage model. American Society of Mechanical Engineers (ASME), Busan, Korea, Republic of, 2016.
[26] 孙丽萍, 张伟, 艾尚茂, and 王朗. 2015. 混合定位全耦合与准静态算法预报性能比较. In Proceedings of the 2015年深海能源大会 (中国海南海口, 12-3-2015, 2015), 中国海南海口,
[27] 孙丽萍, 朱建勋, 艾尚茂, and 刘胜楠. 2015. 全耦合S型铺管动力定位时域分析. 海洋工程 (2015), 1-10.
[28] 孙丽萍, 王冬庆, and 艾尚茂. 2015. 浮式抗冰平台设计理念及水动力特性研究. 船舶工程 (2015), 230-233.
[29] 王建伟, 孙丽萍, 艾尚茂, and 孙为本. 2015. 3000m起重铺管船铺管作业率研究. 哈尔滨工程大学学报 (2015), 644-647.
[30] 孙丽萍, 郭宇, and 艾尚茂. 2015. FPSO锚泊系统动力响应影响因数分析. 船舶工程 (2015), 97-100.
[31] 孙丽萍, 宋环峰, and 艾尚茂. 2015. 基于集中质量法的深水S型铺管动力响应研究. 中国海洋平台 (2015), 70-76.
[32] 孙丽萍, 张伟, and 艾尚茂. 2015. 基于神经网络和遗传算法的系泊线长度参数优化. 船舶工程 (2015), 88-91.
[33] 马刚, 孙丽萍, 艾尚茂, and 王宏伟. 2015. 轴向拉伸细长杆的非线性力学模型. 应用数学和力学 (2015), 371-377.
[34] 宋环峰, 艾尚茂, 杜新光, and 孙丽萍. 2015. 深水S型铺管作业中托管架多参数优化. 中国造船 (2015), 142-150.
[35] 武春霖, 孙丽萍, 艾尚茂, and 刘岩. 2015. 动力定位作用下S型铺管作业耦合运动分析（英文）. 船舶力学 (2015), 249-263.
[36] 马刚, 孙丽萍, 艾尚茂, and 王宏伟. 2014. 轴向拉伸细长杆的非线性力学模型. In Proceedings of the 中国计算力学大会2014暨第三届钱令希计算力学奖颁奖大会 (中国贵州贵阳, 8-10-2014, 2014), 中国贵州贵阳,
[37] 刘胜楠, 孙丽萍, 艾尚茂, and 武春霖. 2014. 连接缆形式对旁靠外输安全的影响分析. 船海工程 (2014), 161-165.
[38] Liping Sun, Dejun Wang, Shangmao Ai, and Xiang Zheng The simulation and sensitivity analysis of S-lay installation in deep water. Trans Tech Publications, Macau, China, 2013.
[39] Dandan You, Liping Sun, Shangmao Ai, and Yiyang Liu Research on the vibration characteristics of a ship engine-base system. Trans Tech Publications, Yichang, China, 2013.
[40] Shangmao Ai, Liping Sun, and Chuanyun Chen Lifting operation simulation of a dynamic-position crane vessel. American Society of Mechanical Engineers (ASME), Nantes, France, 2013.
[41] Gang Ma, Liping Sun, Hongwei Wang, and Shangmao Ai Nonlinear mechanical model for static analysis of stretched mooring line. International Society of Offshore and Polar Engineers, Anchorage, AK, United states, 2013.
[42] 杨旭, 孙丽萍, and 艾尚茂. 2013. 深水无粘结柔性管抗拉伸层屈曲问题研究进展. 海洋工程 (2013), 95-102.
[43] Shangmao Ai, Liping Sun, and Jing Chen Vortex induced vibration numerical simulation of a spring-mounted cylinder in current. Trans Tech Publications, Xi'an, China, 2012.
[44] 艾尚茂, 孙丽萍, 沙勇, 冯玮, and 张威. 2011. 时间步长对低质量比圆柱涡激振动数值结果的影响. 船海工程 (2011), 168-171.
[45] 恽秋琴, 艾尚茂, and 孙丽萍. 2010. 海底多跨管道涡激振动疲劳简化分析. 中国造船 (2010), 111-117.
[46] 艾尚茂 and 孙丽萍. 2010. 理想塑性非线性弹簧支撑刚性圆柱涡激振动响应. 振动与冲击 (2010), 21-25.
[47] 艾尚茂 and 孙丽萍. 2010. 非线性管土耦合条件下悬跨管道涡激振动响应时域预报. 船舶力学 (2010), 1297-1303.
[48] 艾尚茂. 2010. 管土耦合边界下海底悬跨管道涡激振动研究., 哈尔滨工程大学.
[49] Shangmao Ai, Liping Sun, and Gang Ma The effect of soil non-linearity on VIV response of a free spanning pipeline. American Society of Mechanical Engineers (ASME), Honolulu, HI, United states, 2009.
[50] 艾尚茂 and 孙丽萍. 2009. 悬跨管道功能载荷对涡激振动响应的影响(英文). J. Mar. Sci. Appl. (2009), 151-155.
[51] 艾尚茂 and 孙丽萍. 2009. 图解法预报悬跨管道涡激振动响应. 船海工程 (2009), 157-161.
[52] 艾尚茂 and 孙丽萍. 2008. Fluid-structure coupled analysis of underwater cylindrical shells. J. Mar. Sci. Appl. (2008), 77-81.
[53] Liping Sun, Shangmao Ai, and Hailong Chen. 2006. Vibro-acoustic statistical energy analysis of a classic submarine structure. J. Harbin Eng. Univ. (2006), 507-512.