雷达截获接收机、反辐射导弹等电子设备的使用对军用雷达的生存构成了严重威胁。
Radar intercepted receivers, anti-radiation missiles and other electronic equipment threat military radar to survival. Therefore, radar must avoid being intercepted by electronic equipment.
反辐射导弹主要用于攻击警戒雷达、火控雷达和舰载雷达,可对防空雷达进行寻的、跟踪直至摧毁。
Anti-radiation missile mainly used for attacking guard radar, fire control radar and ship carrier radar and finding target of air-defense radar, tacking and destroying.
本文简单介绍了现有两种反辐射导弹(ARM )导引头随动系统,液压伺服随动系统和电动平台随动系统。
Describes briefly two existing anti-radiation missile(ARM) seeker follow-up systems, viz. the hydraulic pressure servo ARM seeker follow-up system and electromotion ARM seeker follow-up system.
从作战模拟和效能评估的角度出发,建立了反辐射导弹(ARM)导引头的截获模型、跟踪模型和ARM的雷达截面积模型。
An interception model, a tracking model of the ARM seeker and a RCS model of the ARM are founded based on the need of combat simulations and effectiveness evaluation.
为了评定一个布置有诱饵的雷达阵地抗反辐射导弹(ARM)攻击的防御效能,提出了采用马尔可夫链的转移概率矩阵进行计算的方法。
To evaluate the defense effectiveness of a radar site with decoys against the attack of ARM, a calculation method based on the transfer probability matrix of the Markov link is given.
针对反辐射导弹对地空导弹制导雷达的毁伤机理和强度进行分析和理论研究,提出求解破片式战斗部对制导雷达毁伤概率的数学模型和计算方法。
The damage mechanism and intensity of AntiRadar Missile(ARM) to the surfacetoair missile guidance radar were analyzed, and the relevant mathematical models and calculation methods were put forward.
再入大气层弹道导弹弹头及其伴随重诱饵的红外辐射特性是识别弹头和诱饵的重要特征,在反突防中具有十分重要的意义。
The infrared radiation of reentry ballistic missile and its heavy decoys, which plays a very important role in defense, is one of the most important characteristics for identifying missile and decoys.
再入大气层弹道导弹弹头及其伴随重诱饵的红外辐射特性是识别弹头和诱饵的重要特征,在反突防中具有十分重要的意义。
The infrared radiation of reentry ballistic missile and its heavy decoys, which plays a very important role in defense, is one of the most important characteristics for identifying missile and decoys.
应用推荐