1) carrier-based aircraft
舰载机
1.
Primary study on command & control system for aerial combat of carrier-based aircrafts;
航母舰载机战斗群航空作战指挥控制系统初步研究
2.
Optimization on fast-extension performance of nose landing gear of carrier-based aircraft
舰载机前起落架突伸性能优化
3.
The Research on Influence of Sway on Precision and Time of Transfer Alignment of Carrier-based Aircraft's INS
摇摆运动对舰载机惯导系统传递对准精度和时间的影响的研究
2) carrier aircraft
舰载机
1.
Research on Visualization of Fly Simulation for Carrier Aircraft Based on HLA;
基于HLA的舰载机飞行仿真可视化研究
2.
Research on the EM safety of carrier aircraft abroad
国外舰载机电磁安全性研究
3.
The development of carrier aircraft capsulting system is introduced in this paper,also with the systemtatic research on electromagnetic ejection system based on the basic principle of electromagnetic launch,the close loop control structure is designed for the system with the control effect increased through smart control.
介绍了航母舰载机弹射装置的发展过程,从电磁发射基本原理出发,对电磁弹射系统进行了系统研究,设计了系统主回路闭环控制结构,通过智能化控制策略提高了控制效果,为研制舰载机电磁弹射系统提供了理论基础和技术支持。
3) shipboard aircraft
舰载机
1.
According to the operational guarantee efficiency model for aircraft carrier to shipboard aircraft,which is given out in the first section,M-C imitation method is presented for the quantitative analysis problem in damage effectiveness of aircraft carrier under the attacking of submunition.
在第一部分给出的航空母舰对舰载机作战保障效能模型的基础上,针对子母弹战斗部攻击航空母舰毁伤效果的定量分析问题,提出了M-C模拟方法,实现了多弹攻击下的航空母舰舰载机作战保障系统毁伤效果的计算机模拟计算。
2.
How to establish the model which exactly reflects the guarantee effectiveness of aircraft carrier to shipboard aircraft is the key when the damage effectiveness of aircraft carrier under the attacking of ballistic missile is evaluated.
在评估弹道导弹打击航空母舰的毁伤效果时,如何构造一个准确反映航空母舰对舰载机保障效能的模型是问题的关键。
3.
This paper explores the following issues concerning how to further enhance the escape performance of the ejection seat on the shipboard aircraft under the adverse attitudes at low altitude, the issues of lifesaving and survival on the sea and the aircrew emergency underwater escape according to the characteristics of environment around the shipboard aircraft.
根椐舰载机在航空母舰上使用环境的特点,对舰载机的乘员防护救生技术如何进一步提高弹射座椅低空不利姿态下的救生性能、海上救生和生存以及乘员水下应急离机等问题进行了探讨。
4) carrier landing approach
舰载机进舰
1.
Variable strategy pilot model of carrier landing approach;
舰载机进舰任务中的驾驶员变策略控制模型
5) Carrier aircraft landing
舰载机着舰
1.
Carrier aircraft landing is the key technology of modern carrier/carrier aircraft system, and the carrier aircraft landing simulation system provides an effective approach for carrier aircraft automatic guidance and control research.
舰载飞机着舰是现代航空母舰/舰载飞机系统的关键技术,而舰载飞机着舰仿真系统为研究舰载机着舰自动导引和控制提供了有效的途径。
6) carrier plane groups
舰载机群
1.
Evaluating the damage efficiency of the carrier plane groups under the attacking of multiple-submunition is a complicated problem.
对于采用子母弹攻击航空母舰舰载机群的毁伤效果分析问题,存在相当大的难度,为对子母弹攻击舰载机群毁伤评估提供一个快速、初步的结果,在对舰载机群进行易损性分析的基础上,采用像素仿真的模拟方法,实现了多弹攻击下舰载机群毁伤效果的计算机模拟计算。
补充资料:舰载机
舰载机 shipboard aircraft 以航空母舰或其他军舰为基地的海军飞机。用于攻击空中、水面、水下和地面目标,并遂行预警、侦察、巡逻、护航、布雷、扫雷、补给、救护和垂直登陆等任务。它是海军航空兵的主要作战手段之一。是在海洋战场上夺取和保持制空权、制海权的重要力量。
舰载机按使命分为歼击机、强击机(攻击机)、反潜机、预警机、侦察机和电子对抗飞机等。按起落原理分为普通舰载机,舰载垂直/短距起落飞机和舰载直升机。舰载机能适应海洋环境。普通舰载机一般在6级风、4~5级浪的海况下,仍能在航空母舰上起落。舰载机能远在母舰舰炮和战术导弹射程以外进行活动;借助母舰的续航力,可远离本国领土 ,进入各海洋活动。舰载歼击机多兼有攻击水面、地面目标的能力,舰载强击机(攻击机)多兼有空战能力,以充分发挥有限数量舰载机的最大效能。 |
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