Generalized Parseval’s Theorem on Fractional Fourier Transform for Discrete Signals and Filtering of LFM Signals

This paper investigates the generalized Parseval’s theorem of fractional Fourier transform (FRFT) for concentrated data. Also, in the framework of multiple FRFT domains, Parseval’s theorem reduces to an inequality with lower and upper bounds associated with FRFT parameters, named as generalized Parseval’s theorem by us. These results theoretically provide potential valuable applications in filtering, and examples of filtering for LFM signals in FRFT domains are demonstrated to support the derived conclusions.

基于改进Wigner-Hough变换的多分量LFM信号特征提取

为了解决Wigner-Hough变换对多分量线性调频(LFM)信号特征提取受噪声困扰的问题,提出采用数字图像处理中改进的Sobel算子对含噪声信号的WVD时频图进行边缘特征检测,利用Hough变换对信号特征进行提取.通过对WHT,SPWD-Hough变换以及改进WHT 3种方法进行计算机仿真比较结果表明,改进的WHT对多分量LFM信号的特征提取效果最好.

基于功率谱形态学运算的LFM信号参数估计

针对当前线性调频(linear frequency modulation,LFM)信号参数估计算法中存在的估计精度与计算量的矛盾问题,提出了一种基于功率谱形态学运算的信号参数估计算法。该算法根据LFM信号参数与功率谱形状特征的关系,实现了LFM信号参数估计。仿真试验表明,在信噪比为-5dB时,LFM信号的调频斜率和起始频率估计精度分别比基于Radon模糊变换(Radon-ambiguity transform,RAT)和分数阶傅里叶变换(fractional Fourier transform,FRFT)结合的离散谱校正算法提高了约2%和4.5%,带宽和脉冲宽度估计的均方根误差分别小于2.4MHz和0.025μs;当采样点不大于4 096时,计算量比插值FRFT算法降低了约70%,证明了该算法具有高估计精度和低运算量的优点。