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首先分析了以超燃冲压发动机为动力的高超声速巡航导弹的主要技术特点,介绍了高超声速巡航导弹的国外发展现状;在此基础上,着重探讨和分析了高超声速巡航导弹动力学建模、飞行控制、制导体制选择及导引律设计、高动态雷达精确制导和高温高速光电制导五个方面的关键技术特点和后续应重点关注的技术发展途径,为高超声速精确打击武器制导控制技术研究提供一定的参考。
Abstract:The main technical features and the recent deployment of hypersonic cruise missile which is powered by scramjet is firstly introduced. And on this basis,the key problems and current difficulties of guidance and control are analyzed from the aspects of dynamic modeling,flight control,guidance structure selection and guidance law design,high dynamic radar guidance,photoelectric guidance at high temperature and high speed. At last,combined with the technical difficulties which is faced by hypersonic precise strike weapon,the guidance and control technology follow-up development directions are given.Some references will be provided for the research of guidance and control technology of hypersonic precise strike weapon.
[1]柴琨琦,王建,等.高超声速快速精确打击技术发展分析[J].战术导弹技术,2015,(5):13-17.
[2]王金云,魏素军.美俄未来高超声速飞航导弹技术发展动向[J].飞航导弹,2012,(9):25-29.
[3]曾凡琳,宗群,等.高超声速飞行器面向控制建模研究综述[C]. MASC'2012,Oct. 20-21,2012,Shanghai,China.
[4]张超凡,宗群,等.高超声速飞行器模型及控制若干问题综述[J].信息与控制,2017,46(1):90-102.
[5] Mirmirani M,Wu C,Clark A. Modeling for control of a generic airbreathing hypersonic vehicle[R]. AIAA-2005-6256,2005.
[6] Clark A,Wu C,Mirmirani M. Development of an airframe-propulsion integrated generic hypersonic vehicle model[R]. AIAA-2006-218,2006.
[7] Fidan B,Mirmirani M,Ioannou P A. Flight dynamics and control of air-breathing hypersonic vehicles:review and new directions[R]. AIAA 2003-7081,2003.
[8]方洋旺,柴栋,等.高超声速飞行器制导与控制研究现状及发展趋势[J].航空学报,2014,35(7):1776-1786.
[9]张婧男,孙未蒙,等.高超声速武器控制技术发展探讨[J].航空兵器,2006,(4):11-13.
[10]刘力,刘兴堂,等.导弹精确制导与控制的关键技术研究[J].飞航导弹,2016,(11):30-33.
[11]赵晶,来庆福,戴幻尧,等.导弹武器全制导技术发展分析[J].中国电子科学研究院学报,2012,(1):34-41.
[12] Fang J C,Gong X L. Predictive iterated Kalman Filter for INS/GPS integration and its application to SAR motion compensation[J]. IEEE Trans. Instrum. Measure,2010,59(4):909-915.
[13] Jeong S K,Cho S J,Kim E G. Angle constraint biased PNG[C]//5th Asian Control Conference,Melbourne,Austrilian,2004:1849-1854.
[14] Bokyung Jung,Youdan Kim. Guidance laws for anti ship missiles using impact angle and impact time[R]. AIAA2006-6432,2006.
[15]王少平,董受全.目标机动对高超声速反舰导弹下压段导引特性的影响分析[J].战术导弹技术,2017,(1):55-61.
[16]葛炜,曹东杰,郝宏旭.红外制导技术在精确打击武器中的应用[J].兵工学报,2010,(31):117-121.
Basic Information:
DOI:10.16358/j.issn.1009-1300.2018.8.168
China Classification Code:TJ765
Citation Information:
[1]柳青,朱坤,赵欣.高超声速精确打击武器制导控制关键技术[J].战术导弹技术,2018,No.192(06):63-69.DOI:10.16358/j.issn.1009-1300.2018.8.168.
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