航空学报 > 2011, Vol. 32 Issue (1): 145-155   doi: CNKI:11-1929/V.20101111.0911.018

空舰导弹获取舰艇编队形状能力研究

卢毅, 姜永华, 翟龙军, 李玉龙   

  1. 海军航空工程学院 电子信息工程系, 山东 烟台 264001
  • 收稿日期:2010-04-23 修回日期:2010-05-10 出版日期:2011-01-25 发布日期:2011-01-25

Study on Ability of Air-to-ship Missile to Acquire the Shape of a Ship Formation

LU Yi, JIANG Yonghua, ZHAI Longjun, LI Yulong   

  1. Department of Electronic and Information Engineering,Naval Aeronautical and Astronautical University, Yantai 264001, China
  • Received:2010-04-23 Revised:2010-05-10 Online:2011-01-25 Published:2011-01-25

摘要: 利用舰艇编队形状(SSF)的预定目标选择方法(简称SSF方法)比传统方法具有更好的预定目标选择能力。为了检验SSF方法的适用性,研究了空舰导弹(ASM)获取SSF的能力。首先推导了末制导雷达(TGR)最小方位角搜索范围模型。据此模型可在给定发射距离下计算合适的末制导雷达方位角搜索范围,此方位角搜索范围既能保证编队录取概率为1,又能减少末制导雷达受干扰的几率。然后分析得到了编队分辨概率表达式,即获取完整编队的概率等于机载火控雷达(AFCR)和末制导雷达的编队录取概率与他们的编队分辨概率的乘积。接着分析了形状扭曲的来源,并给出完整编队下正确选择预定目标的概率表达式,该概率反映出形状扭曲程度对预定目标选择能力的影响。最后用获取完整编队并正确选择预定目标的概率表示空舰导弹获取SSF的能力。计算结果表明,空舰导弹适合利用编队形状来选择预定目标,当发射距离小于322.3 km时,正确选择预定目标的概率大于0.547 8。

关键词: 导弹, 机载火控雷达, 末制导雷达, 舰艇编队, 形状匹配

Abstract: Compared with traditional methods, the target selection method, which makes use of the shape of a ship formation (SSF) and is therefore named an SSF method, has better ability to select the target ship. To check the applicability of SSF method, the ability of the air-to-ship missile (ASM) to acquire SSF is studied. First, a model of the minimal search angle in the azimuth of the terminal guidance radar (TGR) is deduced. Given a launch distance of the ASM, the appropriate search angle is computed based on the model. If the appropriate search angle is utilized to search objects, the probability to record all the objects in the ship formation, i. e., the record probability by the TGR, will be up to 1; in addition, it may reduce the chance of the TGR to be disturbed. Next, the expression of the probability to distinguish each object in the ship formation, i. e., the distinguishing probability, is deduced. Then the probability to acquire perfect SSF equals to multiplying the record probabilities of airborne fire-control radar (AFCR) and TGR by their distinguishing probabilities. Thirdly, the origin of the distortion is studied, and the probability expression to correctly select the designated target conditioned by a perfect SSF is deduced. This probability reflects how the distortion of the SSF influences the performance to select the designated target. Finally, the probability to correctly select the designated target when perfect SSFs are acquired is utilized to describe the ability of the ASM weapon system (referring to the AFCR and TGR) to acquire the SSF. Computation results show the probability to correctly select the designated target is more than 0.547 8 when the launch distance of the ASM is less than 322.3 km, which indicates the SSF method is applicable to ASM.

Key words: missiles, airborne fire-control radar, terminal guidance radar, ship formation, shape matching

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