1) stern chaser
舰艉炮
2) stern chaser
艉炮
3) navy gun
舰炮
1.
In order to make the decision more scientifically when commanders organize navy gun surface-to-shore calling fire,the article comes up with the method of producing and optimizing the station of navy gun surface-to-shore calling fire and analyzing process of producing and optimizing the station.
为了射击指挥员在组织舰炮对岸应召射击时,射击指挥决策更具科学性,文章提出了基于模糊多目标决策理论的舰炮对岸应召射击阵位生成和优选的方法,研究探讨了阵位生成和优选的实现过程,并通过最后的定量计算求得了相对最优攻击阵位。
2.
According to characteristic of navy gun,this paper analysis the firing error of surface-to-shore of navy gun,then,discuss the method to predigest aggregate object.
针对舰炮射击特点,分析了海上射击误差,探讨了集群目标的简化处理方法,给出了最优火力分配时表尺差和弹药消耗量计算模型,并进行了举例分析。
4) naval gun
舰炮
1.
Description of a certain naval gun s filling and feeding process with Petri net;
某型舰炮补供弹过程的Petri网描述
2.
Cost risk analysis of naval gun development based on hierarchy models and entropy criterion;
基于层次评估和熵理论的舰炮武器研制费用风险分析
3.
Mathematical simulation of automata of a type of naval gun;
某型舰炮自动机的数学模拟
5) shipborne gun
舰炮
1.
With technology development,the tracking accuracy of shipborne gun weapon system has been also improved.
随着技术的发展,舰炮武器系统的精度水平越来越高。
2.
The key issue of shipborne gun is firing against the air targets.
舰炮的对空防御是重点,供弹系统里多数情况下准备的是对空射击使用的炮弹。
3.
In some conditions,the effect of shipborne gun firing against the shore targets based on airburst is good.
在一些特定的情况下,舰炮以空炸的方式对岸上目标射击效果较好,通过舰炮使用空炸榴弹对岸射击时火控系统解算的稳定射击诸元误差和跳弹产生过程的分析,提出了以空炸榴弹射击和跳弹射击的射击方法。
6) shipboard gun
舰炮
1.
Based on the dynamics equation of shipboard gun component, by using the numerical integral method and expanding the transfer matrix method of vibration mechanics, this paper established a blocking method for launching dynamics of shipboard gun, which was named the discrete time transfer matrix method for launching dynamics of shipboard gun.
在舰炮元件动力学方程的基础上,使用数值积分方法,并推广振动理论传递矩阵法,形成了舰炮发射动力学模块化建模方法——舰炮发射动力学离散时间传递矩阵法。
2.
In order to analyze the application of electric launch in future shipboard gun,the hierarchical structure index-system which was used to estimate Electrothermal Chemical Launch(ETCL) technology and Electromagnetic Rail Launch(EMRL) technology,was established.
为了分析电发射技术在未来舰载火炮系统中的应用,结合电热化学及电磁轨道发射技术各自的特点以及未来海军舰炮的作战技术需求,建立了评价2种电发射技术在海军舰炮中应用的递阶层次结构指标体系。
3.
In order to realize the purpose of helping commander to constitute shipboard gun oppressive warfare project,this paper makes a research for shipboard gun oppressive ability evaluation.
为了达成辅助指挥员制定舰炮对岸压制作战方案的目的,展开舰炮对岸压制能力评估研究,解决已知压制时间要求条件下舰炮弹药供给能力评估问题,用于指导舰炮对岸压制任务要求的制定。
补充资料:海鹰-2(hy-2)岸舰、舰舰导弹
Image:1159487278684215.jpg
海鹰-2(hy-2)岸舰、舰舰导弹
最大有效射程:95~100公里
最小有效射程:20公里
导弹平飞速度:0.9马赫 导弹平飞高度:30~50米
制导方式:自主式控制加自动导引
地面火控系统:攻击目标运动前置点
制导有效性:捕捉概率 98%; 对目标的自导命中率90%
发射点高度范围:0~400米
发射架射击扇面:±85°
发射方式:单射或齐射 导弹起飞重量:3000千克
导弹全长:7.36米 导弹直径:0.76米
导弹翼展:2.4米 战斗部重:513千克
说明:补充资料仅用于学习参考,请勿用于其它任何用途。