南京大学学报(自然科学版)
南京大學學報(自然科學版)
남경대학학보(자연과학판)
Journal of Nanjing University (Natural Sciences)
2015年
6期
1195-1202
,共8页
阵形畸变%方位估计%阵形校正
陣形畸變%方位估計%陣形校正
진형기변%방위고계%진형교정
array shape distortion%Direction of arrival(DOA)estimation%array shape adj ustment
在水声探测与定位方面,长线阵比舰载声呐有更好的性能,但其极易受到阵型畸变的干扰。通过理论分析、仿真研究以及实验数据处理等方法研究了阵形畸变对线阵到达角估计性能的影响,并提出了一种阵形校正方法。阵形畸变通过对波束成形运算中的导引矢量造成影响,使线阵测向性能劣化甚至失效。在常规线阵波束成形处理器以及自适应波束成形处理器的基础上,为了进行阵形畸变后数据的处理,首先给出一般的任意阵形波束成形算法,然后基于阵元位置误差对信号传输时延的改变,分析了阵形畸变对波束成形的导引矢量的影响。进一步给出了一种声学阵形标定方法,对阵形畸变做出估计并修正导引矢量。通过仿真分析以及实验数据处理可见:阵形畸变对常规波束成形以及自适应波束成形两种处理器均有影响,但比较而言,常规波束成形处理器对阵形畸变的鲁棒性更好一些;进行一定精度的阵形畸变修正后,两种处理器的到达角估计精度以及3分贝主瓣宽度均能得到明显改善。
在水聲探測與定位方麵,長線陣比艦載聲吶有更好的性能,但其極易受到陣型畸變的榦擾。通過理論分析、倣真研究以及實驗數據處理等方法研究瞭陣形畸變對線陣到達角估計性能的影響,併提齣瞭一種陣形校正方法。陣形畸變通過對波束成形運算中的導引矢量造成影響,使線陣測嚮性能劣化甚至失效。在常規線陣波束成形處理器以及自適應波束成形處理器的基礎上,為瞭進行陣形畸變後數據的處理,首先給齣一般的任意陣形波束成形算法,然後基于陣元位置誤差對信號傳輸時延的改變,分析瞭陣形畸變對波束成形的導引矢量的影響。進一步給齣瞭一種聲學陣形標定方法,對陣形畸變做齣估計併脩正導引矢量。通過倣真分析以及實驗數據處理可見:陣形畸變對常規波束成形以及自適應波束成形兩種處理器均有影響,但比較而言,常規波束成形處理器對陣形畸變的魯棒性更好一些;進行一定精度的陣形畸變脩正後,兩種處理器的到達角估計精度以及3分貝主瓣寬度均能得到明顯改善。
재수성탐측여정위방면,장선진비함재성눌유경호적성능,단기겁역수도진형기변적간우。통과이론분석、방진연구이급실험수거처리등방법연구료진형기변대선진도체각고계성능적영향,병제출료일충진형교정방법。진형기변통과대파속성형운산중적도인시량조성영향,사선진측향성능열화심지실효。재상규선진파속성형처리기이급자괄응파속성형처리기적기출상,위료진행진형기변후수거적처리,수선급출일반적임의진형파속성형산법,연후기우진원위치오차대신호전수시연적개변,분석료진형기변대파속성형적도인시량적영향。진일보급출료일충성학진형표정방법,대진형기변주출고계병수정도인시량。통과방진분석이급실험수거처리가견:진형기변대상규파속성형이급자괄응파속성형량충처리기균유영향,단비교이언,상규파속성형처리기대진형기변적로봉성경호일사;진행일정정도적진형기변수정후,량충처리기적도체각고계정도이급3분패주판관도균능득도명현개선。
Long linear array is more important than shipborne sonar in underwater target detecting and positioning, but it seems more sensitive to the shape distortion at the mean while.In this paper,the array shape distortion effect on soft linear array Direction of Arrival (DOA )estimation performance was studied theoretically,then with simulation and field data process,an array calibration method was put forward.The steering vector of beamforming algorithm was changed when array shape was distorted,which will cause the degradation of line array direction per-formance,so far as to failure.Based on the conventional line array algorithm:Conventional BeamForming(CBF)and Adaptive BeamForming(ABF),in the interest of process the data recorded from the distorted array,this paper first derived the general arbitrary array beamforming algorithm,and based on the impact analysis of array element position error act on the acoustical signal transmission delay,introduced how the beamforming steering vector was influenced by the array shape distortion.Next,an array shape calibration method based on acoustic signal was given, which correct the steering vector through estimating the array shape distortion.At last,the simulation and field data process proved the analysis,the performance of both CBF and ABF beamforming algorithm degradation which caused by the array shape distortion,in contrast,the CBF method was better,it has more robust than ABF method;The accuracy of DOA estimation output and the 3 dB width of main lobe have been significantly improved after ap-propriate array shape distortion adj ustment,for both CBF and ABF algorithm.The method mentioned here also useful to analyze the situation of three dimensional space.
