The manufacture of phased array seeker is faced with some key techniques, such as complex electromagnetic environment, target stealth, disturbance of missile body, movement...
研制相控阵导引头面临复杂电磁环境、目标隐身、弹体扰动、弹目机动和专用微波组件等关键技术。
The general principles and technical approaches of radar cross section reduction (RCSR) are introduced, and the application of RCSR technology in military target anti-radar stealth are studied.
本文介绍了RCSR技术(雷达截面积缩减技术)的一般原则及其技术途径,对RCSR技术在军事目标反雷达隐身方面的应用进行了探索与研究。
This paper investigates the stealth of target by nonuniform unmagnetized plasmas.
研究了不均匀非磁化等离子体片的目标隐身。
This method also can be used for stealth target detection.
这种方法也可用于隐身目标的检测和识别。
The stealth technology includes contour design, absorbing materials and plasma stealth technologies, the purpose is to reduce sectional area of average radar for target.
雷达隐身包括外形设计、吸波材料和等离子体等隐身技术,其实质是降低目标的平均雷达截面积。
The relation between the plasma density in unmagnetized plasma and the stealth of target is investigated in this paper.
对不均匀非磁化等离子体密度与目标隐身的关系进行了研究。
The research of electromagnetic scattering characteristic have important applications in many aspects, such as electronic countermeasures, stealth design and identification of target.
目标电磁散射特性的研究,在电子对抗、隐身设计及目标识别等方面有着重要的应用。
With rapid development of stealth and anti stealth, accurate measurement of target characteristics becomes very important.
由于隐身和反隐身技术的不断深入,准确的目标特性测量显得十分重要。
The attack weapons made by use of the stealth technology or low visibility technology are main target threat which would be confronted by the aerial defense systems at present or in the 21st century.
采用低可见性技术或隐身技术制造的进攻兵器是2 1世纪防空系统重点对抗的主要目标威胁。
RCS measurement is necessary to research the electromagnetic scattering properties of radar target as well as to design stealth weapon system.
无论是研究物体的电磁散射特性还是研制具有突防能力的隐身武器系统,RCS测试具有非常重要的意义。
Different temperatures of infrared target can influence the detection distance, and the surface temperature can be reduced by stealth technologies.
红外目标温度的高低影响着被发现的距离,隐身技术可以降低目标的表面温度。
The changing of target surface temperature can influence its millimeter wave radiation temperature. The targets' passive stealth feature was studied when its surface temperature varies.
针对表面温度变化会影响毫米波辐射温度的问题,对隐身目标表面温度变化情况下的毫米波被动隐身效果进行了建模研究。
The changing of target surface temperature can influence its millimeter wave radiation temperature. The targets' passive stealth feature was studied when its surface temperature varies.
针对表面温度变化会影响毫米波辐射温度的问题,对隐身目标表面温度变化情况下的毫米波被动隐身效果进行了建模研究。
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