系统工程与电子技术
繫統工程與電子技術
계통공정여전자기술
SYSTEMS ENGINEERING AND ELECTRONICS
2014年
12期
2381-2387
,共7页
周彬%赵安邦%龚强%宋雪晶
週彬%趙安邦%龔彊%宋雪晶
주빈%조안방%공강%송설정
对角减载%多目标分辨%采样矩阵求逆%最小方差无畸变响应%波达方向
對角減載%多目標分辨%採樣矩陣求逆%最小方差無畸變響應%波達方嚮
대각감재%다목표분변%채양구진구역%최소방차무기변향응%파체방향
diagonal reduction%multi-target resolution%sampling matrix inversion%minimum variance dis-tortionless response%direction of arrival
空间谱估计一直都是水声阵列信号处理研究的热点问题,而一般认为目标和背景干扰的信息都蕴含在接收信号协方差矩阵中,因而现有的谱估计技术大多针对接收信号的协方差矩阵进行处理。由于信号和噪声的相关性,导致协方差矩阵中主对角线元素上的噪声分量最大。针对这一特性提出了基于对角减载的水声阵列采样矩阵求逆(sample matrix inversion,SMI)最小方差无畸变响应(minimum variance distortionless response, MVDR)波束形成技术。理论推导了对角减载量对输出功率谱目标方位上输出信噪比的影响,分析了最佳对角减载系数的选取原则。并针对实际工程应用情况,研究了由有限次快拍数估计的采样矩阵得到最佳对角减载系数的方法,该方法无需预估信号源数。通过算法仿真和海试数据处理,对比验证了基于对角减载的SMI-MVDR 空间谱估计的有效性和可靠性。对于背景噪声级较强的水声阵列信号处理环境来说,所提方法能有效提高高斯白噪声背景下的声纳多目标分辨性能。
空間譜估計一直都是水聲陣列信號處理研究的熱點問題,而一般認為目標和揹景榦擾的信息都蘊含在接收信號協方差矩陣中,因而現有的譜估計技術大多針對接收信號的協方差矩陣進行處理。由于信號和譟聲的相關性,導緻協方差矩陣中主對角線元素上的譟聲分量最大。針對這一特性提齣瞭基于對角減載的水聲陣列採樣矩陣求逆(sample matrix inversion,SMI)最小方差無畸變響應(minimum variance distortionless response, MVDR)波束形成技術。理論推導瞭對角減載量對輸齣功率譜目標方位上輸齣信譟比的影響,分析瞭最佳對角減載繫數的選取原則。併針對實際工程應用情況,研究瞭由有限次快拍數估計的採樣矩陣得到最佳對角減載繫數的方法,該方法無需預估信號源數。通過算法倣真和海試數據處理,對比驗證瞭基于對角減載的SMI-MVDR 空間譜估計的有效性和可靠性。對于揹景譟聲級較彊的水聲陣列信號處理環境來說,所提方法能有效提高高斯白譟聲揹景下的聲納多目標分辨性能。
공간보고계일직도시수성진렬신호처리연구적열점문제,이일반인위목표화배경간우적신식도온함재접수신호협방차구진중,인이현유적보고계기술대다침대접수신호적협방차구진진행처리。유우신호화조성적상관성,도치협방차구진중주대각선원소상적조성분량최대。침대저일특성제출료기우대각감재적수성진렬채양구진구역(sample matrix inversion,SMI)최소방차무기변향응(minimum variance distortionless response, MVDR)파속형성기술。이론추도료대각감재량대수출공솔보목표방위상수출신조비적영향,분석료최가대각감재계수적선취원칙。병침대실제공정응용정황,연구료유유한차쾌박수고계적채양구진득도최가대각감재계수적방법,해방법무수예고신호원수。통과산법방진화해시수거처리,대비험증료기우대각감재적SMI-MVDR 공간보고계적유효성화가고성。대우배경조성급교강적수성진렬신호처리배경래설,소제방법능유효제고고사백조성배경하적성납다목표분변성능。
The spatial spectrum estimation is a hot issue of underwater acoustic array signal processing re-search.It is generally believed that the information of target and background interference is contained in the co-variance matrix of received signal,and thus most of the existing spectral estimation techniques study the proper-ty of the covariance matrix of the received signal.Because of the correlation between signal and noise,it will maximize the noise component of the covariance matrix primary diagonal elements.Aiming at this feature,the underwater acoustic array sampling matrix inversion (SMI)minimum variance distortionless response (MVDR) beamforming technique is proposed based on diagonal reduction,on how diagonal reduction affects output signal is deduced to noise ratio in the output power spectrum target direction from a theoretical perspective,and the se-lective principle of the optimal diagonal reduction coefficients is analyzed.And according to the actual engineer-ing application,how to obtain the optimal diagonal reduction coefficients from the finite snapshot estimation sampling matrix is studied.This method does not need to estimate the number of signal sources.By algorithm simulation and sea trial data processing,through comparisons,based on diagonal reduction,validates the validi-ty and reliability of SMI-MVDR spatial spectral estimation.In the underwater acoustic array signal processing environment whose background noise level is strong,the proposed method can effectively improve the ability of the sonar multi-target resolution under Gauss white noise background.