1) naval gun system
![点击朗读](/dictall/images/read.gif)
舰炮系统
1.
According to the voice signal of naval gun system, the fault diagnosis measures of this system are put forward based on the fuzzy inference and fuzzy\|neural net theories.
基于模糊推理知识和模糊神经网络的理论,根据舰炮运转时发出的声音信号,提出了舰炮系统的故障检测诊断方案,详细介绍了信号提取的方法和故障分析的算法。
2) anti-missile system of the naval gun
![点击朗读](/dictall/images/read.gif)
舰炮反导系统
1.
During the test of the anti-missile system of the naval guns intercepting the anti-ship missile of the ultra low zero-feet flight,the collision and the fault produced by the target missile after hitting will be the main reason of causing fail-safety.
舰炮反导系统拦截超低空掠海飞行反舰导弹试验时,靶弹被击中后由于碰撞受力和引发的故障,是可能引起试验安全问题的主要原因。
3) naval gun weapon system
![点击朗读](/dictall/images/read.gif)
舰炮武器系统
1.
A study on the optimization of naval gun weapon system performance based on geometry programming method;
基于几何规划方法的舰炮武器系统性能优化研究
2.
Evaluation of integrated supportability for naval gun weapon system based on BP neural networks;
基于BP神经网络的舰炮武器系统综合保障性能评价
3.
SAW,TOPSIS,ELECTRE Ⅲ and PROMETHEE Ⅱ are typical ranking and choice methods for optimal configuration of naval gun weapon system.
舰炮武器系统优化配置中典型的排序方法有简单加性加权法(SAW)、逼近理想解的排序方法(TOPSIS)、ELECTREⅢ和PROMETHEEⅡ等,这些方法各具优势、各有局限,应用到实际问题,需要具体分析。
4) ship-borne gun weapon system
![点击朗读](/dictall/images/read.gif)
舰炮武器系统
1.
A new way of test is designed aiming at current object guide requirement of non-autonomous ship-borne gun weapon system.
针对目前非自备式舰炮武器系统目标引导的需求问题,设计了一种新的试验方法,该方法通过在现有的测控设备硬件平台上增加同步串口卡和通讯传输转换介质,并经过一定量的坐标数据变换处理,从而实现了GPS定位数据到舰炮武器系统目指数据的软、硬件转换。
5) shipborne gun fire control system
![点击朗读](/dictall/images/read.gif)
舰炮火控系统
1.
The analysis indicates that the bigger system error willbe made by carrying out reference line correcting in stable ship coordinates,there fore ex-act reference line correcting must be made in unstable ship coordinates in modern middle orsmall Calibre shipborne gun fire control system.
分析表明:在稳定舰艇坐标系中进行基线修正会引入较大的射击误差,因此,在现代中、小口径舰炮火控系统中,应当在不稳定舰艇坐标系中进行精确的基线修正。
6) shipborne weapon system
![点击朗读](/dictall/images/read.gif)
舰炮武器系统
1.
The training simulator of shipborne weapon system is designed to implement the daily training and weapons detecting.
为解决舰炮武器系统日常训练与检测问题,设计了舰炮武器系统模拟训练仪。
补充资料:舰炮武器系统
舰炮武器系统
shipborne gun weapon system
1 ianPao Wuqi Xitong舰炮武器系统(shipbome gu。system)由舰炮、炮弹和舰炮火控系统构成的舰载武器系统。可使跟踪目标、射击计算、舰炮瞄淮、供弹和发射紧密相连,以提高自动化程度和射击效果。反应时间短,射击精度高。由火控系统的炮瞄雷达或光电跟踪器跟踪目标,火控计算机解算射击诸元(方向、高低瞄准全角和引信分划值);舰炮按计算出的瞄准全角信息,通过舰炮瞄谁随动系统的驱动实施瞄准;供弹系统将炮弹送人发射系统;火控系统的控制台控制舰炮发射,并由跟踪设备检测射弹脱靶量,进行射击校正,使射弹命中目标。20世纪70年代以来,各国装备的中、小口径全自动舰炮武器系统,炮位无人操作,首发可自动装填,有的还能自动更换弹种、装定引信、处理瞎火和实现闭环校正射击。多管小口径全自动舰炮武器系统,更是拦截导弹和低空飞机的有效末端防御武器。 (孙敬一)
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