1·Direction finding radio station. Radio beacon can be specified.
定向无线电台。可指定无线电信标。
2·The method can be used in the high resolution direction finding system.
本方法可用于高分辨的测向系统中。
3·The direction finding is an important index of electronic reconnaissance.
测向则是电子侦察的一个重要指标。
4·Direction finding is an important research subject in the electronic reconnaissance field.
数字测向是电子侦察领域的一项重要内容。
5·Direction finding of low probability intercept (LPI) signals is the difficult problem in modern EW system.
低截获概率(LPI)信号的测向是现代电子战的一大难题。
6·Aiming at redundancy scheme of multi-direction finding, application methods of information fusion are given.
针对多个测向站的冗余方案,给出了数据融合的应用方法。
7·The array layout is very important to application of high resolution direction finding technique in wide band.
天线阵的布置方法对宽频段高分辨阵列测向技术的应用有着非常重要的影响。
8·For the eigen-based direction finding technique, array sensor gain and phase uncertainties degrade severely its performance.
基于阵列协方差矩阵特征分解的测向技术,在天线阵各通道特性不一致时,其性能会急剧下降。
9·The narrow band propagator method is introduced to the wideband signal-subspace processing in the direction finding problem.
将窄带传播算子方法引入宽带源测向的相干信号子空间处理中。
10·In this paper, we present a method of signal processing to implement super resolution direction finding with single channel receiver.
本文提出一种新的利用单通道接收机实现方位超分辨的信号处理方法。
1·This paper puts forward a array direction finding system based on single channel, introduces its composition and operating principle, analyzes the main technical parameter.
提出了一种基于单通道的阵列测向系统,介绍了其组成及工作原理,分析了系统主要技术参数。
2·The array layout is very important to application of high resolution direction finding technique in wide band.
天线阵的布置方法对宽频段高分辨阵列测向技术的应用有着非常重要的影响。
3·This paper applies the array manifold interpolation wideband direction finding algorithm on uniform linear array, and gives other two methods of seeking transformation matrix.
文中把阵列流行内插宽带测向算法应用到均匀线阵上,并给出了求变换矩阵的另外两种方法。
4·The direction finding is an important index of electronic reconnaissance.
测向则是电子侦察的一个重要指标。
5·The method can be used in the high resolution direction finding system.
本方法可用于高分辨的测向系统中。