Simulation on Detection Probability of Submarine-Launched Homing Torpedo Based on the Optimized Firing Model
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摘要: 射击三角形是计算潜射鱼雷发射提前角的理论依据, 随鱼雷技术的发展和战场需要, 传统的鱼雷射击三角形的应用局限性日益显现。据此, 文中充分考虑了鱼雷实航速度变化和目标辐射噪声对鱼雷自导作用距离的影响, 提出有利于贴近实战的潜射声自导鱼雷的射击要素解算优化模型, 推导出提前角解算方法, 并依该模型进行鱼雷攻击弹道仿真和发现概率计算。结果显示, 该模型适用于广泛的战场态势, 可为工程应用提供有益参考。Abstract: The firing triangle is the theoretical basis for calculating the firing advance angle of submarine-launched torpedo. With the development of torpedo technology and the need of battlefield, the application of traditional torpedo firing triangle becomes more and more limited. In this paper, the effects of torpedo velocity variation and target radiated noise on torpedo homing distance are considered, and an optimization model of the firing elements of submarine-launched acoustic homing torpedo, which is close to actual combat, is established, and a method for calculating the advance angle is deduced. According to this model, simulation of torpedo attack trajectory and calculation of detection probability are conducted, and the results show that this model is applicable to comprehensive battlefield situations.
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Key words:
- torpedo /
- firing model /
- trajectory simulation /
- detection probability
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