舰船电子工程
艦船電子工程
함선전자공정
SHIP ELECTRONIC ENGINEERING
2012年
2期
87-89
,共3页
近程反导舰炮武器系统%供靶%需求分析
近程反導艦砲武器繫統%供靶%需求分析
근정반도함포무기계통%공파%수구분석
shipborne Close-In Weapon System(CIWS)%target providing%requirement analysis
从飞行速度、飞行高度及航路捷径等方面,分析了靶场目前所使用的FFY1拖靶与“飞鱼”类反舰导弹的主要差别。以及这些差别的综合影响给近程反导舰炮武器系统设计定型试验带来的主要问题。通过仿真计算分析,得出了“有必要进行拦截‘飞鱼’类反舰导弹试验”的结论,为部队使用提供参考。
從飛行速度、飛行高度及航路捷徑等方麵,分析瞭靶場目前所使用的FFY1拖靶與“飛魚”類反艦導彈的主要差彆。以及這些差彆的綜閤影響給近程反導艦砲武器繫統設計定型試驗帶來的主要問題。通過倣真計算分析,得齣瞭“有必要進行攔截‘飛魚’類反艦導彈試驗”的結論,為部隊使用提供參攷。
종비행속도、비행고도급항로첩경등방면,분석료파장목전소사용적FFY1타파여“비어”류반함도탄적주요차별。이급저사차별적종합영향급근정반도함포무기계통설계정형시험대래적주요문제。통과방진계산분석,득출료“유필요진행란절‘비어’류반함도탄시험”적결론,위부대사용제공삼고。
The main differences between FFY1 towed target used in the range at present and the "Flying fish" antiship missile were analyzed by the ways of flight velocity, flight height and the route shortcut. The main problem in the shipborne Close-In Weapon System design finalization test brought by these differences' comprehensive influence was also probed in. By means of simulation and computation, the conclusion that it is necessary to carry out the test of intercepting "Flying fish" antiship missile was drawn, and this should be reference of army units.
