电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2014年
5期
1088-1093
,共6页
郑桂妹%陈伯孝%吴渤
鄭桂妹%陳伯孝%吳渤
정계매%진백효%오발
DOA估计%极化敏感阵列%分离式极化天线%阵列互耦%ESPRIT
DOA估計%極化敏感陣列%分離式極化天線%陣列互耦%ESPRIT
DOA고계%겁화민감진렬%분리식겁화천선%진렬호우%ESPRIT
DOA estimation%Polarization Sensitive Array (PSA)%Spatially spread polarized-antenna%Array mutual coupling%ESPRIT
该文研究了分离式极化敏感阵列(SS-PSA)的多目标波达方向(DOA)估计问题。首先建立三正交分离式极化敏感均匀稀疏阵列的信号模型;接着利用阵列的旋转不变性采用ESPRIT算法计算出多值模糊DOA估计;利用该模糊DOA估计值对分离式极化天线进行空间相移的补偿,然后利用共点式极化天线之间的多维角度结构求出对应的虚拟DOA估计;最后通过提取多值模糊估计值和对应虚拟估计值之差的最小范数得到多目标的DOA估计。该文所提阵列采用分离式极化天线代替传统共点式极化天线,降低了阵列的互耦影响;采用稀疏阵列结构有效地扩展了阵列的物理孔径,大大提高了DOA估计精度。计算机仿真结果证明了该算法对分离式极化天线DOA估计的有效性和高精度性。
該文研究瞭分離式極化敏感陣列(SS-PSA)的多目標波達方嚮(DOA)估計問題。首先建立三正交分離式極化敏感均勻稀疏陣列的信號模型;接著利用陣列的鏇轉不變性採用ESPRIT算法計算齣多值模糊DOA估計;利用該模糊DOA估計值對分離式極化天線進行空間相移的補償,然後利用共點式極化天線之間的多維角度結構求齣對應的虛擬DOA估計;最後通過提取多值模糊估計值和對應虛擬估計值之差的最小範數得到多目標的DOA估計。該文所提陣列採用分離式極化天線代替傳統共點式極化天線,降低瞭陣列的互耦影響;採用稀疏陣列結構有效地擴展瞭陣列的物理孔徑,大大提高瞭DOA估計精度。計算機倣真結果證明瞭該算法對分離式極化天線DOA估計的有效性和高精度性。
해문연구료분리식겁화민감진렬(SS-PSA)적다목표파체방향(DOA)고계문제。수선건립삼정교분리식겁화민감균균희소진렬적신호모형;접착이용진렬적선전불변성채용ESPRIT산법계산출다치모호DOA고계;이용해모호DOA고계치대분리식겁화천선진행공간상이적보상,연후이용공점식겁화천선지간적다유각도결구구출대응적허의DOA고계;최후통과제취다치모호고계치화대응허의고계치지차적최소범수득도다목표적DOA고계。해문소제진렬채용분리식겁화천선대체전통공점식겁화천선,강저료진렬적호우영향;채용희소진렬결구유효지확전료진렬적물리공경,대대제고료DOA고계정도。계산궤방진결과증명료해산법대분리식겁화천선DOA고계적유효성화고정도성。
This paper discusses the issue of multiple targets’ Direction Of Arrival (DOA) estimation for Spatially Spread Polarization Sensitive Array (SS-PSA). First, the signal model of sparsely uniform SS-PSA with three orthogonally oriented polarized-antenna is presented. Then the rotational invariance of the proposed uniform array is utilized to calculate the ambiguous DOA estimation by means of ESPRIT method. The spatial phase shift raised by spatially spread polarized-antenna is compensated by the ambiguous DOA estimation to obtain virtual collocated polarized-antenna. The corresponding virtual DOA estimation is calculated by the multi-dimensional angle structure among the virtual collocated polarized-antenna. Finally, the multiple targets’ DOA estimation is obtained by extracting the minimum norm of the difference between the ambiguous DOA estimation and the corresponding virtual DOA estimation. The proposed array can reduce the array mutual coupling by using the spatially spread polarized-antenna instead of conventional collocated polarized-antenna. Moreover, the DOA estimation accuracy can be improved greatly because of the extended aperture offered by the sparse array. Computer simulation results verify the effectiveness and high-accuracy of the proposed SS-PSA DOA estimation algorithm.