When used in combat, the airborne radars will face the challenges of stealth targets and electronic jamming. Thus we suggest that bistatic radars be used onboard aircraft platform.
针对机载雷达在作战使用时面临的隐身目标和综合电子干扰,将双基地雷达运用于机载雷达,提出机-机双基地雷达系统。
This stealth capability makes it able to attack enemy targets with less fear of retaliation.
它良好的隐身能力使得其在攻击敌方目标时不用担心被击落。
New, more powerful radars using active electronically scaled arrays can pick up fainter and fainter targets, and are fast catching up to stealth technology.
新的,更强大的雷达采用了积极的电子定标阵列能够检测到非常微弱的目标,快速地抓住它的隐身技术。
With the development of stealth technology, military targets are faced with tremendous threatens, thus countermeasures against stealth technology become a pressing task and requirement.
随着隐形技术的迅猛发展,处于战争中的任何军事目标都面临着巨大的威胁,从而使得反隐形成为一项紧迫的任务和要求。
RCS (radar Cross Section) is a key factor in designing stealth weapons, so the research of radar targets scattering characteristics has become the foundation of stealth technologies.
雷达散射截面(RCS)是隐身装备外形设计的一项重要指标,研究雷达目标的电磁散射特性已成为目标隐身设计和目标识别的基础。
Thus these "stealth" aircraft (designed to be nearly invisible to enemy radar) could go in alone and either bomb high - value targets or destroy the enemy air defenses.
这样,设计成几乎让敌方雷达看不到的“隐形”飞机,便可单机在有重要轰炸价值的。
Some examples, which calculated the impact of chaff and RCS of targets on stealth performance, were given.
通过算例计算了箔条干扰及目标RCS对飞行器隐身性能的影响。
Attenuating and absorbing of surface wave on targets is vital for targets' stealth.
目标物体上表面波的衰减吸收对目标的隐身起到很大的作用。
Analyses for the electromagnetic scattering properties of complex targets coated with anisotropic materials are presented, which provide theoretical support for the radar stealth and anti-stealth.
对各向异性材料涂覆复杂目标的电磁散射特性进行分析,为目标的雷达隐身和反隐身提供理论支持。
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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