哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
JOURNAL OF HARBIN ENGINEERING UNIVERSITY
2014年
7期
913-918
,共6页
司伟建%万良田%刘鲁涛%田作喜%蓝晓宇
司偉建%萬良田%劉魯濤%田作喜%藍曉宇
사위건%만량전%류로도%전작희%람효우
波达方向估计%共形阵列天线%任意基线算法%虚拟基线方法%轮换比对%解模糊概率%测角精度
波達方嚮估計%共形陣列天線%任意基線算法%虛擬基線方法%輪換比對%解模糊概率%測角精度
파체방향고계%공형진렬천선%임의기선산법%허의기선방법%륜환비대%해모호개솔%측각정도
direction of arrival estimation%conformal array antenna%arbitrary baseline algorithm%virtual baseline method%rotation comparison method%solving ambiguous probability%measure angle accuracy
为了解决航天飞行器系统中共形阵列天线超宽频带测向问题,提出了基于共形阵列天线的任意基线实时测向算法。该算法使用轮换比对的方法实现无模糊测向,将任意基线算法扩展到三维阵列中,结合虚拟基线方法,利用子阵分割技术和矩阵求逆的方法来获得二维方位角和俯仰角信息。最后通过仿真实验对比了基于对数周期天线的立体阵列和基于平面螺旋天线的平面阵列,验证了所提方法的有效性。结果表明:所提算法在相同频率下具有相近的解模糊概率,在相同信噪比下具有较高的测角精度。
為瞭解決航天飛行器繫統中共形陣列天線超寬頻帶測嚮問題,提齣瞭基于共形陣列天線的任意基線實時測嚮算法。該算法使用輪換比對的方法實現無模糊測嚮,將任意基線算法擴展到三維陣列中,結閤虛擬基線方法,利用子陣分割技術和矩陣求逆的方法來穫得二維方位角和俯仰角信息。最後通過倣真實驗對比瞭基于對數週期天線的立體陣列和基于平麵螺鏇天線的平麵陣列,驗證瞭所提方法的有效性。結果錶明:所提算法在相同頻率下具有相近的解模糊概率,在相同信譟比下具有較高的測角精度。
위료해결항천비행기계통중공형진렬천선초관빈대측향문제,제출료기우공형진렬천선적임의기선실시측향산법。해산법사용륜환비대적방법실현무모호측향,장임의기선산법확전도삼유진렬중,결합허의기선방법,이용자진분할기술화구진구역적방법래획득이유방위각화부앙각신식。최후통과방진실험대비료기우대수주기천선적입체진렬화기우평면라선천선적평면진렬,험증료소제방법적유효성。결과표명:소제산법재상동빈솔하구유상근적해모호개솔,재상동신조비하구유교고적측각정도。
In order to solve the problem concerning the ultra-wideband direction finding for the conformal array an-tenna on an airborne system, a real-time arbitrary baseline direction finding algorithm based on the conformal array antenna has been proposed. This algorithm provides unambiguous direction finding using the rotation comparison method. The arbitrary baseline algorithm was extended to 3D array. The 2D azimuth and pitch angles estimation were acquired through use of the sub-array divided technique, matrix inversion method and the arbitrary baseline algorithm combined with the virtual baseline method. Finally, the simulation results verify the effectiveness of the proposed method by comparing the 3D conformal array based on the log-periodic dipole antenna ( LPDA) with the 2D array based on the spiral antenna. The proposed algorithm has similar solving ambiguity probability at the same frequency and high measure angle accuracy at the same SNR.