它设计用来提高飞行人员的态势感知,通过提供精确的识别、致命性和敌友发射器的方位显示。
It is designed to enhance pilot situational awareness by providing accurate identification, lethality, and azimuth displays of hostile and friendly emitters.
二次雷达系统同时具有能识别我方目标的飞行高度、飞行距离和方位等信息的功能。
The secondary radar systems also fulfill the task of identify some information of the friend target about the aviation altitude, the aviation distance and the aviation azimuth.
在解码模块中,根据国家标准,设计并实现了寻像图像识别模块,格式信息探测组件,图形符号方位校正组件和信息解码组件。
In the decoding module, according the standard, finding-pattern recognition module, formation detection module, adjusting orientation module and information decoding module are developed.
分析了定向探测器的工作原理和目标方位识别的关键技术,并对探测天线的设计做了详细的分析和计算。
The work principle of directional detector and the key technique for identifying target bearing are analyzed. Design and calculation of detecting antenna have been carried out.
提出一种以目标检测、目标分割、目标方位角估计和目标不变性特征提取为线索的SAR目标识别框架。
We propose a multistage SAR target recognition process based on target detection, target segmentation, target aspect estimation and invariant feature extraction.
研究了数字锁相实施玫瑰线扫描同步采集方位转换和红外多帧配准图像模糊分割识别系统实现。
The real-time and parallel processing ability of the system is investigated. The phase-lock azimuth transform and infrared registration recognition are implemented in the system.
方位角联合估计方法有利于增强目标方位角估计的适应性,提高目标分类和识别的效率。
The combined method can improve the adjustability of azimuth estimation, and then can facilitate target classification and recognition effectively.
分析了定向探测器的工作原理和目标方位识别的关键技术,并对探测天线的设计做了详细的分析和计算。
The work principle of directional detector and the key technique for identifying target bearing are analyzed.
分析了定向探测器的工作原理和目标方位识别的关键技术,并对探测天线的设计做了详细的分析和计算。
The work principle of directional detector and the key technique for identifying target bearing are analyzed.
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