Influence of carrier motion on landing safety for carrier-based airplanes
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摘要: 总结了舰载飞机的着舰安全性分类等级,研究了航母的航行运动以及随海浪的摇晃和振荡运动对舰载机着舰安全性的影响规律,并给出了与舰载机进舰速度适配的最优航母航行速度.研究结果表明:由于航母的航行方向与舰载机的进舰方向存在一定的夹角,驾驶员在进舰过程中必须协调操纵副翼和方向舵才能保证舰载机安全准确地着舰;航母航行速度越大,驾驶员操纵量越大,着舰偏差也越大.海况越恶劣,着舰信号指挥官对航母运动的预报和补偿效果越差,着舰失败概率越大.因此,为保证舰载机的着舰安全,必须选择合适的航母航行速度,同时应尽量选择在平稳的海况下进舰着舰.Abstract: The landing safety grading standard was summarized for carrier-based airplanes. The influence of carrier motion such as navigation, wobble and surge due to wave on landing safety was researched and the best carrier navigation velocity cooperated with carrier-based airplane approach velocity was given. The research results indicate that because of the angle between directions of carrier navigation and airplane approach,the pilot must operate aileron and rudder in phase to keep the airplane safe. Pilot operation and landing error increase as the carrier navigates faster. The prediction precision of landing signal officer about carrier motion decreases and the probability of landing failure increases as the sea condition is more severe. To keep carrier-based airplanes safe, the velocity of carrier navigation should be neither too large nor too small and severe sea condition should be avoided during the landing process for carrier-based airplanes.
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Key words:
- carrier-based airplane /
- carrier motion /
- landing signal officer /
- carrier landing error
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[1] 彭兢,金长江.在MATLAB中模拟平稳随机过程[J].北京航空航天大学学报,2001,27(5): 585-588 Peng Jing,Jin Changjiang.Simulation of stationary random process with MATLAB[J].Journal of Beijing University of Aeronautics and Astronautics,2001,27(5): 585-588(in Chinese) [2] 马宏颖.船舶运动姿态极短期预报研究[J].哈尔滨工程大学学报,1999,20(1): 41-45 Ma Hongying.Study of shortest time prediction of ship motion attitude[J].Journal of Harbin Engineering University,1999,20(1): 41-45(in Chinese) [3] 石明,屈香菊,王萌辉.甲板运动对舰载机人工着舰的影响和补偿[J].飞行力学,2006,24(1): 5-8 Shi Ming,Qu Xiangju,Wang Menghui.The influence and compensation of deck motion in carrier landing approach[J].Flight Dynamics,2006,24(1): 5-8(in Chinese) [4] Richards R A.Application of multiple artificial intelligence techniques for an aircraft carrier landing decision support tool .IEEE-0-7803-7280,2002 [5] 许东松,刘星宇,王立新.变化风场对舰载飞机着舰安全性影响[J].北京航空航天大学学报,2010,36(1): 77-81 Xu Dongsong,Liu Xingyu,Wang Lixin.Influence of changeful wind on landing safety of carrier-based airplane[J].Journal of Beijing University of Aeronautics and Astronautics,2010,36(1): 77-81(in Chinese) [6] Anderson M R.Inner and outer loop manual control of carrier aircraft landing .AIAA-96-3877,1996 [7] Richards R.Artificial intelligence techniques for pilot approach decision aid logic (PADAL) system .N68335-98-C-0027,1998 [8] 石明.舰载机人工控制下的建模仿真 .北京: 北京航空航天大学航空科学与工程学院,2004 Shi Ming.Modeling and simulation of man-control carrier approaching .Beijing: School of Aeronautic Science and Engineering,Beijing University of Aeronautics and Astronautics,2004 (in Chinese) [9] Durand T S,Teper G L.An analysis of terminal flight path control in carrier landing .AD 606040,1964 [10] 彭兢.舰载飞机进舰着舰的自动引导和控制研究 .北京:北京航空航天大学航空科学与工程学院,2001 Peng Jing.Research on the automatic guide and control of carrier-based airplane approach and landing .Beijing: School of Aeronautic Science and Engineering,Beijing University of Aeronautics and Astronautics,2001(in Chinese)
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