电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2010年
3期
570-574
,共5页
吴向东%赵永波%张守宏%董玫
吳嚮東%趙永波%張守宏%董玫
오향동%조영파%장수굉%동매
雷达测高%相干信号%多径效应%Toeplitz矩阵
雷達測高%相榦信號%多徑效應%Toeplitz矩陣
뢰체측고%상간신호%다경효응%Toeplitz구진
Radar height finding%Coherent signals%Multipath effect%Toeplitz matrix
由于多径效应的存在,米波雷达低仰角测高时除了收到目标的直达波外,还会收到与直达波相干的地(海)面反射的多径信号.该文提出了两种利用改进的Toeplitz化技术实现米波雷达低仰角测高方法.第1种改进方法不但利用阵列接收数据协方差矩阵的每一行元素构造Toeplitz矩阵,还利用了与其对应每一列元素构造Toeplitz矩阵,然后对这两个矩阵求平均得到一个新的协方差矩阵,这一过程相当于前后向空间平滑的过程,提高了参数估计的精度.第2种改进算法是在第1种算法基础之上,重新构造一个Toeplitz矩阵,使其在信噪比最大约束条件下逼近平滑后协方差矩阵的信号子空间,这样可以最小程度的减小噪声的影响,提高了算法的稳健性.理论分析和计算机仿真都表明了新算法的优越性.
由于多徑效應的存在,米波雷達低仰角測高時除瞭收到目標的直達波外,還會收到與直達波相榦的地(海)麵反射的多徑信號.該文提齣瞭兩種利用改進的Toeplitz化技術實現米波雷達低仰角測高方法.第1種改進方法不但利用陣列接收數據協方差矩陣的每一行元素構造Toeplitz矩陣,還利用瞭與其對應每一列元素構造Toeplitz矩陣,然後對這兩箇矩陣求平均得到一箇新的協方差矩陣,這一過程相噹于前後嚮空間平滑的過程,提高瞭參數估計的精度.第2種改進算法是在第1種算法基礎之上,重新構造一箇Toeplitz矩陣,使其在信譟比最大約束條件下逼近平滑後協方差矩陣的信號子空間,這樣可以最小程度的減小譟聲的影響,提高瞭算法的穩健性.理論分析和計算機倣真都錶明瞭新算法的優越性.
유우다경효응적존재,미파뢰체저앙각측고시제료수도목표적직체파외,환회수도여직체파상간적지(해)면반사적다경신호.해문제출료량충이용개진적Toeplitz화기술실현미파뢰체저앙각측고방법.제1충개진방법불단이용진렬접수수거협방차구진적매일행원소구조Toeplitz구진,환이용료여기대응매일렬원소구조Toeplitz구진,연후대저량개구진구평균득도일개신적협방차구진,저일과정상당우전후향공간평활적과정,제고료삼수고계적정도.제2충개진산법시재제1충산법기출지상,중신구조일개Toeplitz구진,사기재신조비최대약속조건하핍근평활후협방차구진적신호자공간,저양가이최소정도적감소조성적영향,제고료산법적은건성.이론분석화계산궤방진도표명료신산법적우월성.
The echo waves of radar received consist of direct wave and multipath wave which is reflected from earth (sea) surface and coherent with direct wave. Two new height finding algorithms using improved Toeplitz technique at low-angle environment are presented. The first method uses not only every row elements but also corresponding every column elements of array covariance matrix to construct a Toeplitz matrix, a new covariance matrix is obtained taking average these two matrixes, this process is equivalent to spatial smoothing and improves the accuracy of DOA estimation of elevation. The second method based on the first method, reconstructing a Toeplitz matrix to approach the subspace of above covariance matrix constraint to maximum SNR (Signal Noise Ratio), it can reduce the influence of the noise to a certain extent and improve the robust of algorithm. Theoretical analysis and simulation results demonstrate the merits of the new algorithm.
