火力与指挥控制
火力與指揮控製
화력여지휘공제
FIRE CONTROL & COMMAND CONTROL
2009年
10期
108-110,114
,共4页
舰空导弹%反导拦截%建模与仿真
艦空導彈%反導攔截%建模與倣真
함공도탄%반도란절%건모여방진
ship-to-air missile%anti-missile interception%modeling and simulation
根据舰空导弹拦截方式的不同,在自身拦截和协同拦截两种情况下建立了舰空导弹反导拦截次数的数学模型,并在模型参数取典型值的条件下利用MATLAB进行了仿真.结果表明,水面舰艇在防空布阵时应尽可能垂直于反舰导弹的运动方向展开,这不仅有利于降低反舰导弹末制导雷达的捕获概率,而且也有利于通过增加协同拦截次数来降低反舰导弹的外层突防概率,从而提高己方水面舰艇的生存能力.
根據艦空導彈攔截方式的不同,在自身攔截和協同攔截兩種情況下建立瞭艦空導彈反導攔截次數的數學模型,併在模型參數取典型值的條件下利用MATLAB進行瞭倣真.結果錶明,水麵艦艇在防空佈陣時應儘可能垂直于反艦導彈的運動方嚮展開,這不僅有利于降低反艦導彈末製導雷達的捕穫概率,而且也有利于通過增加協同攔截次數來降低反艦導彈的外層突防概率,從而提高己方水麵艦艇的生存能力.
근거함공도탄란절방식적불동,재자신란절화협동란절량충정황하건립료함공도탄반도란절차수적수학모형,병재모형삼수취전형치적조건하이용MATLAB진행료방진.결과표명,수면함정재방공포진시응진가능수직우반함도탄적운동방향전개,저불부유리우강저반함도탄말제도뢰체적포획개솔,이차야유리우통과증가협동란절차수래강저반함도탄적외층돌방개솔,종이제고기방수면함정적생존능력.
According to the different interception style of ship-to-air missiles, the model of anti-missile interception for the ship-to-air missile is constructed under circumstances of self-interception and cooperative-interception. Then the simulation is conducted in MATLAB where the parameters of the model have the classic value. The results show that in the defensive operation, the ships should be arranged vertically to the moving direction of anti-ship missile, which not only do good to decrease the interception probability of the guided radar of the anti-ship missile, but decreases the outer defense-break probability of anti-ship missile through increasing the number of interception. Thus the surviving ability of the ship could be enhanced.