电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2014年
10期
2419-2424
,共6页
戴文舒%陈新华%孙长瑜%余华兵
戴文舒%陳新華%孫長瑜%餘華兵
대문서%진신화%손장유%여화병
水声信号处理%线谱检测%频率方差%Alpha-beta滤波%后置处理
水聲信號處理%線譜檢測%頻率方差%Alpha-beta濾波%後置處理
수성신호처리%선보검측%빈솔방차%Alpha-beta려파%후치처리
Underwater signal processing%Line spectrum detector%Frequency variance%Alpha-beta filter%Post-processing
矩形包络的单频信号时域频率方差等于频域有效带宽,且频率方差为信噪比的函数,在信噪比下降时,线谱方位权值计算误差变大,频率方差线谱检测器丢失目标。传统Alpha-beta滤波的增益恒定,不能有效修正频率估计。该文提出后置处理方法,将每个方位下多次求得的功率谱叠加后得到功率谱-频率曲线作为该方位下各频率对应的增益。当频率观测值对应的增益大时,新息在递推过程中占的比重大,当频率观测值对应的增益小时,预测值在递推过程中起的作用大,对滤波后频率估计值计算方差来修正方位谱输出。仿真和实验处理结果证明在低信噪比情况下,修正后的线谱检测后置处理算法抗干扰性强,能够实现弱线谱的提取,同时压低了干扰背景。
矩形包絡的單頻信號時域頻率方差等于頻域有效帶寬,且頻率方差為信譟比的函數,在信譟比下降時,線譜方位權值計算誤差變大,頻率方差線譜檢測器丟失目標。傳統Alpha-beta濾波的增益恆定,不能有效脩正頻率估計。該文提齣後置處理方法,將每箇方位下多次求得的功率譜疊加後得到功率譜-頻率麯線作為該方位下各頻率對應的增益。噹頻率觀測值對應的增益大時,新息在遞推過程中佔的比重大,噹頻率觀測值對應的增益小時,預測值在遞推過程中起的作用大,對濾波後頻率估計值計算方差來脩正方位譜輸齣。倣真和實驗處理結果證明在低信譟比情況下,脩正後的線譜檢測後置處理算法抗榦擾性彊,能夠實現弱線譜的提取,同時壓低瞭榦擾揹景。
구형포락적단빈신호시역빈솔방차등우빈역유효대관,차빈솔방차위신조비적함수,재신조비하강시,선보방위권치계산오차변대,빈솔방차선보검측기주실목표。전통Alpha-beta려파적증익항정,불능유효수정빈솔고계。해문제출후치처리방법,장매개방위하다차구득적공솔보첩가후득도공솔보-빈솔곡선작위해방위하각빈솔대응적증익。당빈솔관측치대응적증익대시,신식재체추과정중점적비중대,당빈솔관측치대응적증익소시,예측치재체추과정중기적작용대,대려파후빈솔고계치계산방차래수정방위보수출。방진화실험처리결과증명재저신조비정황하,수정후적선보검측후치처리산법항간우성강,능구실현약선보적제취,동시압저료간우배경。
The frequency variance of single-frequency signal with rectangular envelope in time domain equals to the effective bandwidth in frequency domain, and the frequency variance is a function of Signal to Noise Ratio (SNR). When the SNR drops, the calculated frequency variance error of azimuth of target line spectrum enhances. As a result, the Variance of frequency detector which weights bearing spectrum using the variance of peak frequency of each azimuth losts its target. The gain of traditional Alpha-beta filter is constant, thus it fails to correct frequency estimates effectively. The paper puts forward a post-processing method which sums the power spectrum of each azimuth several times and puts it as a gain corresponding to each frequency. When the gain corresponding to the frequency observation is large, the new information in the recursive process counts more, whereas the gain corresponding to the frequency observation is small, then the predicted value counts more. At last the bearing spectrums are rectified by using the modified variance of estimated frequency of each azimuth as weight. Simulation and experiment results show that under circumstance of low SNR, the modified post-processing method can extract weak line spectrum target and suppress interference background.