郭孝先 船舶与海洋工程系
办公电话：
电子邮件：xiaoxguo@sjtu.edu.cn
通讯地址：上海市东川路800号上海交通大学木兰楼B315



个人简历 研究方向 学术兼职 科研项目 代表性论文及专著 教学工作 软件版权登记及专利
工作经历：
2019年5月至今，上海交通大学，助理研究员
教育经历：
2010年9月-2014年6月，上海交通大学，船舶与海洋工程，学士
2016年8月-2017年9月，挪威科技大学，海洋工程系，联合培养博士
2014年9月-2019年3月，上海交通大学，船舶与海洋工程，博士


1. 海洋结构物的控制与感知，船舶动力定位技术与应用，作业水面结构物的环境感知。
2. 海洋结构物随机非线性力学及实验方法：甲板上浪、非线性波浪测量，月池结构动力学，潮流能水轮机及海上风机力学
3. 神经网络增强非线性力学求解：结构物运动预报，流场超分辨率重构


国内外多个学术期刊及会议的审稿人,包括 Ocean Engineering, Ships and offshore structures, OMAE conference等。


1. 海洋工程国家重点实验室研究基金，1915，用于海上拆平台的多船协同动力定位技术研究，2020.01-2022.01，7.5万元，在研，主持。
2. 上海交通大学新晋教师启动计划，潮流能水轮机在真实波浪中的非线性水动力载荷问题研究，2019.07-2022.06，20万元，在研，主持。
3. 海南省重大科技计划项目，深海装备实测运维数字化系统研究与应用，2019.01-2021.01，1500万元，在研，参加（子课题负责人）
4. 上海市科委"科技创新行动计划"，深海矿产资源开发关键技术，2019.07-2022.06，2600万，在研，参加（子课题技术负责人）
5. 国家自然科学基金面上项目，**，新型单点系泊浮式潮流能装置耦合动力性能研究，2017.01-2020.12，62万元，在研，主要研究人员。
6. 工信部课题“深水半潜式支持平台研发专项-平台系泊及靠泊性能研究”(课题编号【2016】546)，在研，参加，子课题主要研究人员。
7. 海洋工程国家重点实验室自主研究课题，“浮式潮流能装置的耦合动力性能”(项目标 号:GKZD010068)，结题，主要研究人员。
8. Wave Basin Model Test for Chevron Anchor Project, Project from GVA, 2019
9. “Wave Basin Model Tests for Disconnectable Tower Yoke Mooring System ENI-MODEC”, Project from SOFEC, 2018
10. “Wave Basin Model Tests for Disconnectable Tower Yoke Mooring System ENI-Bumi Armada”, Project from Bluewater Energy Services B.V., 2018




期刊论文
1. Dong, Q., Yang, J.M. & Guo, X.X.* (2020) Measurements of current loads on side-by-side semi-submersibles in a wind tunnel. Ocean Engineering, (Accept).
2. Cao, Q., Xiao, L.F.*, Guo, X.X. & Liu, M.Y. (2020). Second-order Responses of a Conceptual Semi-submersible 10 MW Wind Turbine Using Full Quadratic Transfer Functions. Renewable Energy. Publish online.
3. Wang, P., Zhang, X.T., Wang, D.Y., Guo, X.X., Lu, W.Y. & Tian, X.L.* (2020). A restricted circle based position keeping strategy for the wave glider, Applied Ocean Research. 97: 102081.
4. Xiong, L.Z., Lu, W.Y.*, Li, X. & Guo, X.X. (2019). Estimation of damping induced by taut mooring lines, International Journal of Naval Architecture and Ocean Engineering. Publish online.
5. Wang, P., Wang, D.Y., Zhang, X.T., Guo, X.X., Li, X. & Tian, X.L.* (2019). Path following control of the wave glider in waves and currents, Ocean Engineering. 193: 106578.
6. Dong, Q., Lu, H.N.*, Yang, J.M. & Guo, X.X. (2019). Dynamic gangway responses between TLP and semi-submersible platform during tender-assisted drilling. Marine Structure 67: 102645.
7. Guo, X.X., Gao, Z., Li, X.*, Yang, J.M. & Moan, T. (2019). Loading and Blade Deflection of a Tidal Turbine in Waves. Journal of Offshore Mechanics and Arctic Engineering, 141(4), 041902.
8. Qi, Y.H., Tian, X.L.*, Guo, X.X. & Lu, H.N. (2019). The Hydrodynamic Performance of a Tension Leg Platform with One-tendon Failure. Ships and Offshore Structures, 1-11.
9. Guo, X.X., Yang, J.M.*, Lu, W.Y. & Li, X. (2018). Dynamic Responses of a Floating Tidal Turbine With 6-DOF Prescribed Floater Motions. Ocean Engineering, 165: 426-437.
10. Guo, X.X., Yang, J.M.*, Gao, Z., Moan, T. & Lu, H.N. (2018). The Surface Wave Effects on the Performance and the Loading of a Tidal Turbine. Ocean Engineering, 156: 120-134.
11. Guo, X.X., Lu, H.N.*, Yang, J.M. & Peng, T. (2017). Resonant water motions within a recessing type moonpool in a drilling vessel. Ocean Engineering, 129: 228-239.
会议论文
1. Li, D., Lu, W.Y.*, Li, X., Zhao, W.H., Guo, X.X. & Li, J. (2019) Second-order resonant motions of a deep-draft semi-submersible under extreme irregular wave excitation. In: Proceedings of Sixth Intl Conference of Advanced Model Measurement Technology for the Maritime Industry (AMT’19). October 08-12, Rome, Italy.
2. Cao, Q., Xiao, L.F.*, Guo, X.X., (2019). Second-order responses of a 10 MW floating wind turbine, considering the full QTF. In: Proceedings of the ASME 38th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2019-95661, June 9–14, Glasgow, U.K.
3. Guo, X.X.*, Yang, J.M., Xin Li, Lu, W.Y., Peng, T. & Li, J. (2018). Dynamic Responses of a Floating Tidal Turbine Considering Prescribed Wave Frequency Motion. In: Proceedings of the ASME 37th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2018-77426, June 17–22, Madrid, Spain.
4. Guo, X.X.*, Gao, Z., Yang, J.M., Moan, T., Lu, H.N., Li, X. & Lu, W.Y. (2017). The Effects of Surface Waves and Submergence on the Performance and Loading of a Tidal Turbine. In: Proceedings of the ASME 36th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2017-62233, June 25–30, Trondheim, Norway.
5. Guo, X.X.*, Gao, Z., Yang, J.M. & Moan, T. (2017). Hydrodynamic Loads on a Tidal Turbine in Random Seas. In: Proceedings of the 12th European Wave and Tidal Energy Conference (EWTEC, August 27-September 2, Cork, Ireland.
6. Guo, X.X.*, Lu, H.N, Yang, J.M. & Peng, T. (2016). Study on Hydrodynamic Performances of a Deep-Water Drillship and Water Motions inside Its Rectangular Moonpool, In: Proceedings of 26th International Ocean and Polar Engineering Conference. International Society of Offshore and Polar Engineers, 26 June–2 July, Rhodes, Grace.




2019-2020春季学期：船舶与海洋工程试验研究，本科生课程


授权发明专利7项，新型使用专利2项，美国专利2项，国际专利优先权2项，软件著作权3项。