1) aviation homing torpedo
航空自导鱼雷
1.
Based on the tactical and technical performance of aviation homing torpedo, a model of search and affach submarine,is presented and simulation is simulation is conducted by using actual sonar data in antisubmarine training, the result from simulation and calculation is identical with that of the actual situation.
依据航空自导鱼雷的战术技术性能 ,给出了鱼雷的搜攻潜模型 ,并利用反潜训练实例 ,进行鱼雷搜攻潜仿真计算 ,其结果与实际情况非常吻
2) homing torpedo
自导鱼雷
1.
The Study on Chaos of Homing Torpedo During Homing Phase;
声自导鱼雷末端制导过程的混沌现象研究
2.
In order to countermeasure submarine appearing in a close distance, the paper put forward the concept of method for current-location shooting homing torpedo against the uniform acceleration submarine, then gave the simulation model.
针对如何有效打击近距离突然出现的匀速直航潜艇,提出了自导鱼雷对匀速直航潜艇射击的现在位置射击法,即直接按潜艇方位进行射击,建立了鱼雷与潜艇的现在位置射击法对抗模型,并通过实例计算分析了射击距离的确定方法,验证了现在位置射击法对近距离上突然出现的匀速直航潜艇对抗的有效性。
3.
In order to develop the power of torpedo weapon and guarantee the safety of our troops,shooting forbidden zone of homing torpedo was studied.
为充分发挥鱼雷武器的威力,保证编队内我方兵力的安全,研究了自导鱼雷的射击禁区,介绍了鱼雷射击禁区的定义及影响射击禁区的主要因素,分析了射击禁区的划分原理。
3) torpedo acoustic homing
鱼雷自导
1.
This paper analyzes three negative influences of the shallow water environment on torpedo acoustic homing,and provides approaches to improve the homing performance.
浅海水声环境给鱼雷自导带来多途效应及严重的混响干扰,影响了自导系统的性能。
4) Torpedo homing
鱼雷自导
1.
In modem torpedo homing technology, in general, advanced algorithm of signal processing must take longe time in computing, so it is clear that we need to use high-speed signal processor system to do it in real time.
在现代鱼雷自导技术中,一般的信号处理先进算法计算量都相当大,要求用高速并行数字信号处理机系统才能实时完成。
5) acoustic-homing torpedo
声自导鱼雷
1.
On mathematical model for submarine using mobile decoy to defend double acoustic-homing torpedoes;
潜艇使用声诱饵防御两枚声自导鱼雷模型研究
2.
Based on the principle of the submarine defending an active acoustic-homing torpedo, the optimization model about the submarine how to defend double acoustic-homing torpedoes is built.
在潜艇防御主动声自导鱼雷原理的基础上,建立了潜艇防御两枚声自导鱼雷的优化模型,通过仿真计算得到了在取得最佳防御效果时鱼雷舷角和两枚鱼雷航向差的关系,以及潜艇最佳防御效果与两枚鱼雷航向差的关系。
3.
It is a key problem for submarines to defend anti-acoustic-homing torpedoes in ASW.
从潜艇防御主动声自导鱼雷入手,采用模糊控制理论,通过建立语言值的隶属函数、模糊控制规则和模糊变换器以及给出响应动作这几个步骤,重点分析了潜艇从舷角入手结合模糊控制防御主动声自导鱼雷的方法,得到了潜艇纯机动法防御主动声自导鱼雷的模糊控制表,为潜艇防御主动声自导鱼雷提供了新的思路。
6) acoustic homing torpedo
声自导鱼雷
1.
The mathematical and simulation model of countering the acoustic homing torpedo with the acoustic decoy;
助飞声诱饵对抗声自导鱼雷数学模型及其仿真
2.
The evadable maneuvering model of the surface warship with the rocket assist acoustic decoy countering the acoustic homing torpedo and the optimal fire parameter model of the decoy were built up based on nonlinear programming theory.
基于非线性规划理论,建立了使用助飞声诱饵对抗声自导鱼雷的舰艇规避机动模型及声诱饵的最优发射参数模型,并使用该模型对舰艇的生存概率进行了仿真计算和分析,最后得出了使用助飞声诱饵的几点结论,可解决水面舰船使用助飞声诱饵对抗声自导鱼雷的问题,对推动装备的作战使用和提高舰艇生存概率具有重要意义。
3.
By analyzing torpedo′s working environment and mode,and its data structure,the possibility to improve target detection performance of acoustic homing torpedo under reverberation background with STAP method was discussed,and the solutions to the key steps and the basic flow of reverberation suppression using STAP were given.
介绍了全维和降维空时自适应处理(STAP)的基本原理,通过分析鱼雷工作环境、工作方式以及数据组织方式,讨论了采用STAP方法提高声自导鱼雷混响背景下目标检测性能的可能性,给出了关键步骤的解决方案和STAP抗混响的基本流程。
补充资料:自导鱼雷
利用自导装置自动搜索、跟踪和攻击目标的鱼雷。通常利用声波和舰船尾流进行自导。具有较高的命中率。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条