Citation: | ZHOU Yu, SUN Ming-wei, ZHANG Jian-hong, LIU Le-hua, CHEN Zeng-qiang. Analysis and Improvement of Supercavity Vehicle Planing Force Model[J]. Journal of Unmanned Undersea Systems, 2022, 30(2): 157-164. doi: 10.11993/j.issn.2096-3920.2022.02.003 |
[1] |
王改娣.超空泡鱼雷技术特点分析[J].鱼雷技术, 2007, 15(5):2-4.
Wang Gai-di. Analysis of Technical Features of Supercavitating Torpedoes[J]. Torpedo Technology, 2007, 15(5):2-4.
|
[2] |
张珂,李鹏,王志,等.超空泡航行体尾部滑行力实验研究[J].船舶力学, 2020, 24(1):8-17.
Zhang Ke, Li Peng, Wang Zhi, et al. Experimental Study of Planing Force on Supercavitating Vehicle Tail[J]. Jou-rnal of Ship Mechanics, 2020, 24(1):8-17.
|
[3] |
庞爱平,何朕,钞凡,等.超空泡航行体时滞特性分析[J].控制工程, 2019, 26(12):2241-2245.
Pang Ai-ping, He Zhen, Chao Fan, et al. Time Delay Analysis for Supercavitating Vehicles[J]. Control Engi-neering of China, 2019, 26(12):2241-2245.
|
[4] |
Dzielski J, Kurdila A. A Benchmark Control Problem for Supercavitating Vehicles and an Initial Investigation of Solutions[J]. Journal of Vibration and Control, 2003, 9(7):791-804.
|
[5] |
刘伟,范辉,吕建国,等.超高速水下航行器控制方法研究热点综述[J].水下无人系统学报, 2019, 27(4):369-378.
Liu Wei, Fan Hui, Lü Jian-guo, et al. Review of Research Hotspots of Superspeed Undersea Vehicle Control Methods[J]. Journal of Unmanned Undersea Systems, 2019, 27(4):369-378.
|
[6] |
Mao X, Wang Q. Nonlinear Control Design for a Supercavitating Vehicle[J]. IEEE Transactions on Control Sys-tems Technology, 2009, 17(4):816-832.
|
[7] |
Balas G J, Bokor J, Vanek B, et al. Control of High-Speed Underwater Vehicles[M]//Control of Uncertain Systems:Modelling, Approximation and Design. Berlin Heidelberg:Springer-Verlag, 2006:25-44.
|
[8] |
吕瑞,魏英杰,于开平,等.超空泡航行体的增益自适应全程滑模控制器设计[J].振动与冲击, 2011, 30(3):34-37.
Lü Rui, Wei Ying-jie, Yu Kai-ping, et al. Design of Gain Adaptive Global Sliding Mode Controller for Supercavitating Vehicle[J]. Journal of Vibration and Shock, 2011, 30(3):34-37.
|
[9] |
王京华,魏英杰,于开平,等.基于空泡记忆效应的水下超空泡航行体建模与控制[J].振动与冲击, 2010, 29(8):160-163.
Wang Jing-hua, Wei Ying-jie, Yu Kai-ping, et al. Modeling and Control of Underwater Supercavitating Vehicle Based on Memory Effect of Cavity[J]. Journal of Vibration and Shock, 2010, 29(8):160-163.
|
[10] |
李阳,刘明雍,张小件.基于自适应RBF神经网络的超空泡航行体反演控制[J].自动化学报, 2020, 46(4):734-743.
Li Yang, Liu Ming-yong, Zhang Xiao-jian. Adaptive RBF Neural Network Based Backstepping Control for Supercavitating Vehicles[J]. Acta Automatica Sinica, 2020, 46(4):734-743.
|
[11] |
韩云涛,程章龙,李盼盼,等.超空泡航行体LPV鲁棒变增益控制[J].华中科技大学学报, 2017, 45(7):127-132.
Han Yun-tao, Cheng Zhang-long, Li Pan-pan, et al. Robust Variable Gain Control for Supercavitating Vehicles Base on LPV[J]. Journal Huazhong University of Science&Technology, 2017, 45(7):127-132.
|
[12] |
Zhao X, Ye X, Liu Y, et al. Boundary Sliding Mode Controller Design for Supercavitating Vehicles[C]//Procee-dings of 2017 IEEE International Conference on Mechatronics and Automation. Takamatsu, Japan:IEEE, 2017, 1245-1249.
|
[13] |
Wang J, Liu Y, Cao G, et al. Design of RBF Adaptive Sliding Mode Controller for Supercavitating Vehicle[J]. IEEE Access (2169-3536), 2021, 9:1-11.
|
[14] |
韩云涛,许振,白涛,等.基于时滞特性的超空泡航行体预测控制[J].华中科技大学学报, 2020, 48(7):52-57.
Han Yun-tao, Xu Zhen, Bai Tao, et al. Predictive Control of Supercavitating Vehicle Based on Time Delay Characteristics[J]. Journal Huazhong University of Science&Technology, 2020, 48(7):52-57.
|
[15] |
Guo J, Balachandran B, Abed E H. Dynamics and Control of Supercavitating Vehicles[J]. Journal of Dynamic Systems, Measurement, and Control, 2008, 130(2):1-11.
|
[16] |
宋书龙,万亚民,李建辰,等.一种基于独立膨胀原理的三维超空泡形态计算方法[J].水下无人系统学报, 2019, 27(1):51-58.
Song Shu-long, Wan Ya-min, Li Jian-chen, et al. A Calculation Method of Three-Dimensional Supercavity Shape Based on the Principle of Independent Expansion[J]. Jo-urnal of Unmanned Undersea Systems, 2019, 27(1):51-58.
|