姓   名：姚建喜

性   别：男

职称/职务：副教授/船舶工程系副主任

学位/学历：博士/研究生

邮 箱：yao@whut.edu.cn

个人简历：姚建喜，2007年毕业于武汉理工大学船舶与海洋工程专业，获工学学士学位，2010年毕业于上海交通大学船舶海洋结构物设计与制造专业，获工学硕士学位，2015年毕业于德国柏林工业大学船舶与海洋工程专业，获工学博士学位。学成回国后加入武汉理工大学从事教学科研工作，长期致力于船舶操纵性与耐波性、船舶运动智能预报、航路跟踪控制、CFD技术的研究工作。

研究方向：船舶操纵性和耐波性、智能船技术、CFD

主讲课程：《船舶操纵性与耐波性》、《航海力学》、《海洋文化》

成果列表：

[1] Xuemin Song, Jianxi Yao*, Weiqin Liu, Yaqing Shu and Feng Xu (2023), Numerical Generation of Solitary Wave and Its Propagation Characteristics in a Step-Type Flume, Journal of Marine Science and Engineering, 11(1): 35.

[2] Lifei Song, Le Hao, Hao Tao, Chuanyi Xu, Rong Guo, Yi Li and Jianxi Yao* (2023), Research on Black-Box Modeling Prediction of USV Maneuvering Based on SSA-WLS-SVM, Journal of Marine Science and Engineering, 11(2): 324.

[3] Yikang Liu, Jianxi Yao*, Feng Xu (2022), RANS Investigation of the Hydrodynamic Interactions Between Two Approaching Ships in Shallow Water Considering the Effects of Drift Motion and Rudder Deflection, Ocean Engineering, 261(1): 111952.

[4] Long Jiang, Jianxi Yao* and Zuyuan Liu* (2022), Comparison between the RANS Simulations of Double-Body Flow and Water-Air Flow around a Ship in Static Drift and Circle Motions, Journal of Marine Science and Engineering, 10(7): 970.

[5]姚建喜,胡一(2022),船舶操纵运动参数辨识建模与预报软件V1.0,登记号：2022SR0993278, 2022-08-03.

[6]姚建喜,胡一(2022),基于改进粒子群算法的船舶操纵运动辨识建模软件V1.0,登记号：2022SR1291820, 2022-08-26.

[7]姚建喜,胡一(2022),波浪中的船舶操纵性预报软件V1.0,登记号：2022SR1348838, 2022-09-09.

[8]姚建喜,杨三兴(2022),深水船舶回转与Z形操纵运动预报软件V1.0,登记号：2022SR1595912, 2022-12-21

[9] Jianxi Yao*, Zuyuan Liu, Xuemin Song, and Yan Su (2021), Pure Low-Frequency and Pure High-Frequency Ship Motion Equations in Regular Waves, Ocean Engineering, 233(3): 109152.

[10] Jianxi Yao*, Zuyuan Liu, Xuemin Song, and Yan Su (2021), Ship Maneuvering Prediction with Hydrodynamic Derivatives from RANS: Development and Application, Ocean Engineering, 231(2): 109036.

[11] Jianxi Yao*, Xide Cheng, Xuemin Song, Chengsheng Zhan and Zuyuan Liu* (2021), RANS Computation of the Mean Forces and Moments and Wave-Induced Six Degrees of Freedom Motions for a Ship Moving Obliquely in Regular Head and Beam Waves, Journal of Marine Science and Engineering, 9(11): 1176.

[12] Yi Hu, Lifei Song*, Zuyuan Liu and Jianxi Yao* (2021), Identification of Ship Hydrodynamic Derivatives Based on LS-SVM with Wavelet Threshold Denoising, Journal of Marine Science and Engineering, 9(12): 1356.

[13] Qingze Gao, Lifei Song* and Jianxi Yao* (2021), RANS Prediction of Wave-Induced Ship Motions, and Steady Wave Forces and Moments in Regular Waves, Journal of Marine Science and Engineering, 9(12): 1459.

[14]卢冠宇,姚建喜* (2021), 基于SVR的船舶操纵运动黑箱建模,中国航海, 44(4): 13-19.

[15]高庆泽,姚建喜* (2021), 基于雷诺平均Navier-Stokes方程计算的惯性效应与波幅对船舶波浪增阻影响分析,中国造船, 64(4): 75-88.

[16] Jianxi Yao*, Yan Su, Xuemin Song, Zuyuan Liu, Xide Cheng, and Chengsheng Zhan (2020), RANS Analysis of the Motions and Added Resistance for KVLCC2 in Head Regular Waves, Applied Ocean Research, 105(86): 102398.

[17] Jianxi Yao*, Zuyuan Liu*, Yan Su, Xide Cheng, Xuemin Song, and Chengsheng Zhan (2020), A Time-Averaged Method for Ship Maneuvering Prediction in Waves, Journal of Ship Research, 64(3): 203~225.

[18] Jianxi Yao (2020), Prediction of the Dynamic Response of a Ship in Head Waves Using OpenFOAM Toolbox, International Journal of Maritime Engineering, 162: 47~53.

[19]姚建喜,郑自强,黄家乐,张文哲,崔连正(2020),基于撬冰作业的极地多用途工作船,专利号：ZL201811004700.2, 2020-02-14.

[20]姚建喜,郑自强,崔连正,刘祖源,程细得(2020),快速自航模虚拟试验系统软件V1.0,登记号：2020SR0038574, 2020-01-08.

[21] Jianxi Yao*, Xide Cheng and Zuyuan Liu (2018), Ship Maneuvering Prediction Based on Numerical Towing Tank technique, International Journal of Maritime Engineering,160: 285~292.

[22] Jianxi Yao*, Weiguo Wu and Keqiang Chen, (2018), Analysis of the Maneuvering of a Sea-River-Going Ship in Shallow Water, The 32^ndAsian-Pacific Technical Exchange and Advisory Meeting on Marine Structures, Wuhan, OCT 15-19.

[23] Jianxi Yao (2017), A virtual piston-type wave maker based on OpenFOAM, International Journal of Maritime Engineering,159: 159~165.

[24] Jianxi Yao (2017), Model- and full-scale RANS simulations for a drift tanker, International Journal of Maritime Engineering, 159: 197~204.

[25]姚建喜,刘祖源(2017), RANS simulation of the flow around a ship in head waves,第十四届全国水动力学学术会议暨第二十八届全国水动力学研讨会，8月8日-10日，长春.

[26]姚建喜,吴静萍(2017),孤立波数值造波研究,武汉理工大学学报(交通科学与工程版), 41(4): 604~608.

[27] Jianxi Yao, Wei Jin, Yang Song (2016), RANS simulation of the flow around a tanker in forced motion,Ocean Engineering, 127: 236~245.

[28] Jianxi Yao (2015), Investigation on hydrodynamic performance of a marine propeller in oblique flow by RANS computations, International Journal of Naval Architecture and Ocean Engineering, 7(1): 56~69.

[29]姚建喜,邹早建,王化明(2011), Numerical Study on Bank Effects for a Ship Sailing in Shallow Channel, Journal of Shanghai Jiaotong University(Science), 16(1): 91~96.

[30]姚建喜,邹早建(2011),船舶近岸航行岸壁效应数值研究,武汉理工大学学报(交通科学与工程版), 35(3): 435~438.

[31] Jianxi Yao, Zaojian Zou (2010), Calculation of ship squat in restricted waterways by using a 3D panel method, Journal of Hydrodynamics, Ser. B, 22(1): 489~494.

[32]姚建喜,邹早建，王化明(2009),船舶近垂直岸壁航行岸壁效应数值研究,第九届全国水动力学学术会议暨第二十二届全国水动力学研讨会.

科研项目：

[1]中央军委装备发展部装备项目管理中心，装备预先研究领域基金（快速扶持项目第一阶段），应用于水下充电的波浪能装置水动力性能与能量转换机理研究，2022-10至2023-02.

[2]中国特种飞行器研究所，军工横向，水面飞行器水面起飞操纵性运动模型研究，2022-07至2024-07.

[3]中央军委装备发展部装备项目管理中心,水面舰船风浪环境XXXX技术研究，2022-04至2025-12.

[4]中央军委装备发展部装备项目管理中心,基于强化学习技术的无人艇风浪环境下运动控制参数智能匹配方法，装备预先研究领域基金（快速扶持项目第一阶段），2022-03至2022-08.

[5]中央军委装备发展部装备项目管理中心，装备预先研究领域基金（快速扶持项目第一阶段），尾斜浪中船舶操纵诱发大幅横摇机理和失稳特性研究，2021-10至2022-03.

[6]武汉南华工业设备工程股份有限公司，横向，大型无人艇操纵运动控制模型研究，2021-03至2021-11.

[7]武汉华中航空测控技术有限公司，横向，水下航行器六自由度运动仿真软件研发，2020-11至2021-02.

[8]中央军委装备发展部装备项目管理中心，深海工作平台多推进器操控XXX技术，装备预研共用技术项目，XXX，2018-01至2019-12.

[9]国家自然科学基金委员会，青年科学基金项目，船过船闸时的水动力特性数值预报研究，2017-01至2019-12.

获奖情况：

[1]海洋航行器与制作大赛一等奖一项

[2]海洋航行器与制作大赛二等奖二项

[3]优秀班主任

[4]优秀创新创业指导老师