电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2013年
4期
844-851
,共8页
解恺*%丁雪洁%孙贵青%黄海宁%李启虎
解愷*%丁雪潔%孫貴青%黃海寧%李啟虎
해개*%정설길%손귀청%황해저%리계호
水声信号检测%辐射噪声%起伏相位对齐%线谱检测%方位估计
水聲信號檢測%輻射譟聲%起伏相位對齊%線譜檢測%方位估計
수성신호검측%복사조성%기복상위대제%선보검측%방위고계
Underwater acoustic signal detection%Radiated noise%Fluctuating phase alignment%Frequency line detecting%Direction-of-arrival estimation
该文以起伏声场背景下的目标辐射噪声模型分析为前提,针对目标方位估计和窄带线谱的检测问题,提出一种基于信号起伏相位差分对齐的宽窄带综合相干检测算法.利用周期线谱信号与宽带噪声间的时间相关半径与起伏相位均匀性差异,抑制背景噪声的能量干扰;将聚焦波束域输出信号的起伏相位对齐增益结合阵元域处理的空间相干增益,提高对不同来波方向目标的辨识能力.通过仿真分析与海试实验结果验证了该文所提算法可明显增强目标线谱分量的检测信噪比增益和相关目标所在波束方位的相对能量谱级,在抗复杂信道检测、识别领域具有良好的实际应用前景.
該文以起伏聲場揹景下的目標輻射譟聲模型分析為前提,針對目標方位估計和窄帶線譜的檢測問題,提齣一種基于信號起伏相位差分對齊的寬窄帶綜閤相榦檢測算法.利用週期線譜信號與寬帶譟聲間的時間相關半徑與起伏相位均勻性差異,抑製揹景譟聲的能量榦擾;將聚焦波束域輸齣信號的起伏相位對齊增益結閤陣元域處理的空間相榦增益,提高對不同來波方嚮目標的辨識能力.通過倣真分析與海試實驗結果驗證瞭該文所提算法可明顯增彊目標線譜分量的檢測信譟比增益和相關目標所在波束方位的相對能量譜級,在抗複雜信道檢測、識彆領域具有良好的實際應用前景.
해문이기복성장배경하적목표복사조성모형분석위전제,침대목표방위고계화착대선보적검측문제,제출일충기우신호기복상위차분대제적관착대종합상간검측산법.이용주기선보신호여관대조성간적시간상관반경여기복상위균균성차이,억제배경조성적능량간우;장취초파속역수출신호적기복상위대제증익결합진원역처리적공간상간증익,제고대불동래파방향목표적변식능력.통과방진분석여해시실험결과험증료해문소제산법가명현증강목표선보분량적검측신조비증익화상관목표소재파속방위적상대능량보급,재항복잡신도검측、식별영역구유량호적실제응용전경.
@@@@The analysis of the target radiated noise model is made as a precondition under the background of fluctuating sound field firstly. A broad and narrow band integrated coherent detection algorithm based on phase fluctuation and differential alignment is proposed for the issue of target azimuth estimation and narrow-band line-spectrum detection. The background noise energy disturbances can be restrained by using the differences of temporal correlated radius and phase fluctuation uniformity for the periodic spectrum signals and broadband noise;The ability to identify different DOA targets can also be improved by combining phase fluctuation aligned gain of the output signal in focused beam domain and spatial coherent gain of the signal processing in array domain. It is proved that the proposed algorithm can significantly enhance the detection SNR gain of the target line spectral component and relative energy spectrum level of the coherent target’s beam azimuth by analyzing the simulation and sea experiment results. It has better application prospects in the detection and identification areas of anti-complex channel.