职务:副研究员、博导
办公电话:021-34208441
电子邮件:tangjw@sjtu.edu.cn
办公地址:上海交通大学太阳集团tyc151学院A201室
时间 | 任职单位 | 职务 |
---|---|---|
2023年-至今 | 上海交通大学太阳集团tyc151学院 | 副研究员、博导 |
2018年-2022年 |
上海交通大学太阳集团tyc151学院 |
助理研究员 |
2016年-2018年 | 上海交通大学太阳集团tyc151学院 | 博士后 |
时间 | 毕业院校 | 学历 |
---|---|---|
2011年-2016年 |
西北工业大飞行器设计专业(硕博连读) | 博士 |
2010年-2011年 | 西北工业大学飞行器设计专业(本硕连读) | 硕士 |
2009年-2010年 | 西北工业大学飞行器设计与工程专业(本硕连读) | 本科 |
2006年-2009年 | 西北工业大学改革试点班(本硕连读) | 本科 |
(1)飞行器总体及多学科优化设计;
(2)空气动力学及计算流体力学;
(3)飞行动力学及控制仿真;
(4)无人系统设计。
近五年主持国家重大专项课题、国家自然科学基金、上海市青年科技人才计划等国家级、省部级、横向项目20余项,在飞行器总体设计与仿真、气动设计、多学科优化设计等领域取得了一些有意义的成果。目前主要从事飞行器总体及多学科优化设计、空气动力学及计算流体力学、飞行动力学仿真及无人系统设计方面的研究工作。
(1)Jiwei Tang(唐继伟), et al. Shape Exploration and Multidisciplinary Optimization Method of Semirigid Nearing Space Airships. Journal of Aircraft. 2022; 59 (4):946-963.
(2)Jiwei Tang(唐继伟), et al. Multidisciplinary Optimization and Analysis of Stratospheric Airships Powered by Solar Arrays, Aerospace, 2023,10 (1):43.
(3)Jiwei Tang(唐继伟), et al. Study of the Mechanical Properties of Near-Space Airship Envelope Material Based on an Optimization Method. Aerospace, 2022, 9(11), 655.
(4)Jiwei Tang(唐继伟), et al. Research on Trajectory Prediction of a High-Altitude Zero-Pressure Balloon System to Assist Rapid Recovery. Aerospace. 2022; 9 (10):622.
(5)Jiwei Tang(唐继伟), et al. Optimisation and analysis of efficiency for contra-rotating propellers for high-altitude airships. Aeronautical Journal. 2019; 123 (1263):706-726.
(6)Jiwei Tang(唐继伟), et al. Simulation and Analysis of Fluid–Solid–Thermal Unidirectional Coupling of Near-Space Airship. Aerospace. 2022; 9(8):439.
(7)Jiwei Tang(唐继伟), et al. Multidisciplinary Optimization and Analysis of Stratospheric Airships Powered by Solar Arrays. Aerospace, 2023;10(1):43.
(8)Jiwei Tang(唐继伟), et al Unsteady Aerodynamic Optimization of Airfoil for Cycloidal Propellers Based on Surrogate Model. Journal of Aircraft, 2017, 54(4): 468~477.
(9)Jiwei Tang(唐继伟), et al. An Unsteady Free Wake Model for Aerodynamic Performance of Cycloidal Propellers. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 2018, 232(2): 290-307.
(10)Jiwei Tang(唐继伟), et al. Investigation on the Unsteady Aerodynamics of Cycloidal Propeller in Hovering Flight [J]. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 2015, 229(13): 2519-2536.
(11)Yuhao Jing, Yang Wu, Jiwei Tang*(唐继伟), Pingfang Zhou, Dengping Duan. Receding horizon trajectory generation of stratospheric airship in low altitude return phase. Aerospace, 2022, 9(11), 670.
(12)Weicheng Xie, Xiaoliang Wang, Jiwei Tang*(唐继伟), Yonglin Chen, Jiejun Wu. Experimental Study on the Influence of Temperature on the Mechanical Properties of Near-Space Airship Envelopes. Aerospace, 2023, 10 (5), 413.
(13)Peng Zhang, Quanbao Wang, Jiwei Tang(唐继伟), Dengping Duan. Agent‐based stratosphere airship cooperative control for earth‐observing system. International Journal of Robust and Nonlinear Control. 2022; 32 (8):4966-4979.
(14)Yan Wei, Pingfang Zhou, Weicheng Xie, Jiwei Tang(唐继伟), Dengping Duan. Event‐triggered adaptive output‐feedback control for nonlinear state‐constrained systems using tangent‐type nonlinear mapping. Asian Journal of Control. 2021; :1.
(15)Weicheng Xie, Xiaoliang Wang, Dengping Duan, Jiwei Tang(唐继伟), Yan Wei. Mechanical properties of UN-5100 envelope material for stratospheric airship. The Aeronautical Journal. 2020; 125 (1285):472-488.
(16)Jiwei Tang(唐继伟), et al. A Detailed Aerodynamic Analysis of the Cyclorotor using Dynamic Mesh in CFD. 52th AIAA Aerospace Science Meeting, 2014.1.13-2014.1.17.
(17)Jiwei Tang(唐继伟), et al. Research on Altitude Adjustment Performance of Stratospheric Airship Based on Thermodynamic-Dynamics-Pressure Coupled. ICASSE 2023, Shanghai, China.
(18)Jiwei Tang(唐继伟), et al. Structural Characteristics and Influencing Factors Analysis of Semirigid Stratospheric Airship. ICASSE 2023, Shanghai, China.
(19)Yu Hu, Jiwei Tang(唐继伟), Bifeng Song. Aerodynamics Analysis of Cycloidal Rotor. 28th Congress of the International Council of the Aeronautical Sciences, Brisbane, Australia, 23-28 September 2012, ICAS 2012-2.7.1.
(20)Weicheng Xie, Xiaoliang Wang, Dengping Duan, Jiwei Tang(唐继伟). Finite Element Simulation of the Microstructure of Stratospheric Airship Envelopes. AIAA Journal. 2020; 58 (8):3690-3699.
(21)Weicheng Xie, Xiaoliang Wang, Dengping Duan, Jiwei Tang(唐继伟). Optimization Analysis of Stratospheric Airship Suspended Curtains. Journal of Mechanics. 2020; 36 (6):763-772.
(22)Yan Wei, Pingfang Zhou, Yueying Wang, Dengping Duan, Jiwei Tang(唐继伟). Adaptive finite-time neural backstepping control for multiple-input-multiple-output uncertain nonlinear systems with full state constraints. TRANSACTIONS OF THE INSTITUTE OF MEASUREMENT AND CONTROL,2021, 43(11), 2450-2460.
(23)Shaoyang Mu, Pingfang Zhou, Dengping Duan, Jiwei Tang(唐继伟). Formation control of a second-order UAVs system under switching topology with obstacle/collision avoidance. Aerospace Systems. 2020; 3 (3):219-227.
(24)唐继伟, 胡峪, 宋笔锋. 摆线桨非定常气动特性研究[J], 航空学报,2014, 35(7), 1882-1992.
(25)唐继伟, 胡峪, 宋笔锋. 关键设计参数对摆线桨气动性能影响[J]. 航空动力学报,2015,30(2): 297-305.
(26)唐继伟,胡峪,宋笔锋. 摆线桨气动性能研究进展[J]. 空气动力学报,2013,31(5): 676-684.
(27)唐继伟,胡峪,宋笔锋,李为吉. 基于LB动态失速模型的摆线桨气动性能计算方法[J]. 飞行力学,2011,29(3):20-23.
发明专利
已授权“一种安装马格纳斯效应推进系统的高空无人机”等发明专利6项(第一发明人3项,第二发明人3项),已申请待授权发明专利11项(均为第一发明人)
(1)中国航空学会分会委员
(2)中国宇航学会高级会员
(3)全国航空器标准化技术委员会分委会委员
(4)重庆市太阳集团tyc151学会理事
(5)国家自然科学基金通讯评审专家、《Applied Science》 期刊客座主编、《先进无人飞行系统国际会议》(ICAUAS)程序委员会组委、分会主席等。Chinese Journal of Aeronautics、Journal of Aircraft、Journal of Field Robotics、Aerospace、Aeronautical Journal、Drones、Aerospace Systems、P I MECH ENG G-J AER、航空学报、航空动力学报、国防科技大学学报、北京太阳集团tyc151大学学报、空气动力学学报、飞行力学、航空工程进展等太阳集团tyc151领域学术期刊审稿专家。
(1)上海市青年科技英才计划,2019年;
(2)上海交通大学太阳集团tyc151学院年度优秀教师,2019年;
(3)西北工业大学优秀博士毕业生,2016年;
(4)首届中航工业杯-国际无人飞行器创新大奖赛,国际二等奖,2011年。