摘要
针对有源探测或脉冲侦查中双曲调频信号的波达方向估计问题,提出了基于参数化时频变换(PTFT)的多重信号分类(MUSIC)测向算法,简称PTFT-MUSIC算法。该算法由发射信号确定针对双曲调频信号的参数化变换核,对接收信号进行频域参数化时频变换,利用获得的时频分布建立阵列信号时频分布模型,并以此模型设计基于时频分布矩阵的MUSIC算法以实现双曲调频信号的波达方向估计。通过仿真和实验对该算法的估计误差和多目标分辨性能进行了分析,仿真和海上实验结果表明:相比现有的时频MUSIC算法,PTFT-MUSIC算法能有效提高空间谱分辨率和波达方向估计性能,同时该算法拥有对特定调频信号筛选性,结合时频域滤波算法能有效抑制相干直达波干扰,应用于多基地声呐系统时有效提高了声呐定位性能。
Aiming at the problem of Direction-of-Arrival(DOA) estimation of hyperbolic Frequency Modulation(FM)signal in active detection or pulse detection,a multi-signal classification direction finding algorithm based on Parameterized Time-Frequency Tansform(PTFT-MUSIC) is proposed.The parameterized transform core of the hyperbolic FM signal is determined by the transmitted signal,and the frequency domain parameterized time-frequency transform of the received signal is carried out.The time-frequency distribution model of the array signal is established by using the obtained time-frequency distribution,and the MUSIC algorithm based on the time-frequency distribution matrix is designed to realize the DOA estimation of the hyperbolic FM signal.Through simulation and experiment,the estimation error and multi-target resolution performance of the algorithm are analyzed.The simulation and sea experiment results show that compared with the existing time-frequency MUSIC algorithm,the PTFT-MUSIC algorithm can effectively improve the spatial-spectral resolution and DOA estimation performance.At the same time,the algorithm has the ability to screen specific FM signals,combined with the time-frequency filtering algorithm,the coherent direct wave interference can be effectively suppressed.When applied to multistatic sonar system,the positioning performance of sonar is improved effectively.
作者
薛城
顾怡鸣
宫在晓
李整林
XUE Cheng;GU Yiming;GONG Zaixiao;LI Zhenglin(State Key Laboratory of Acoustics,Institute of Acoustics,Chinese Academy of Sciences,Beijing 100190;University of Chinese Academy of Sciences,Beijing 100049)
出处
《声学学报》
EI
CAS
CSCD
北大核心
2023年第1期27-40,共14页
Acta Acustica
基金
国家自然科学基金项目(11874061)资助。