航空学报
航空學報
항공학보
ACTA AERONAUTICA ET ASTRONAUTICA SINICA
2009年
11期
2149-2155
,共7页
数字波束形成%互耦%通道失配%阵列天线%信号子空间%计算复杂度%卫星通信系统
數字波束形成%互耦%通道失配%陣列天線%信號子空間%計算複雜度%衛星通信繫統
수자파속형성%호우%통도실배%진렬천선%신호자공간%계산복잡도%위성통신계통
digital beamforming%mutual coupling%channel imbalance%antenna array%signal subspace%computational complexity%satellite communication systems
提出了一种改进的基于子空间的星载数字波束形成(DBF)接收天线的误差校正方法.根据阵列互耦效应主要取决于阵元间的几何距离这一特点,利用阵元空间排布的对称性简化了天线的互耦模型,将天线的互耦效应及射频(RF)通道失配统一为通道问的幅相不一致.通过在基带注人特定的阵内相位差降低了子空间算法的计算复杂度.在建立7单元正六边形平面阵仿真模型的基础上,分析不同信噪比(SNR)环境下校正算法的性能,经比较得出可以通过提高发射信号功率改善误差估计的精度,验证了算法的有效性.仿真分析结果表明该算法在卫星通信系统中有一定的工程应用价值.
提齣瞭一種改進的基于子空間的星載數字波束形成(DBF)接收天線的誤差校正方法.根據陣列互耦效應主要取決于陣元間的幾何距離這一特點,利用陣元空間排佈的對稱性簡化瞭天線的互耦模型,將天線的互耦效應及射頻(RF)通道失配統一為通道問的幅相不一緻.通過在基帶註人特定的陣內相位差降低瞭子空間算法的計算複雜度.在建立7單元正六邊形平麵陣倣真模型的基礎上,分析不同信譟比(SNR)環境下校正算法的性能,經比較得齣可以通過提高髮射信號功率改善誤差估計的精度,驗證瞭算法的有效性.倣真分析結果錶明該算法在衛星通信繫統中有一定的工程應用價值.
제출료일충개진적기우자공간적성재수자파속형성(DBF)접수천선적오차교정방법.근거진렬호우효응주요취결우진원간적궤하거리저일특점,이용진원공간배포적대칭성간화료천선적호우모형,장천선적호우효응급사빈(RF)통도실배통일위통도문적폭상불일치.통과재기대주인특정적진내상위차강저료자공간산법적계산복잡도.재건립7단원정륙변형평면진방진모형적기출상,분석불동신조비(SNR)배경하교정산법적성능,경비교득출가이통과제고발사신호공솔개선오차고계적정도,험증료산법적유효성.방진분석결과표명해산법재위성통신계통중유일정적공정응용개치.
An improved calibration method for a satellite-borne digital beanforming (DBF) receiving antenna is presented based on the signal subspace principle. On the basis of the fact that the mutual coupling effect of ar-ray is mainly determined by the distance between the array elements, the mutual coupling model is simplified by utilizing the symmetrical array distribution. Mutual coupling effect and imbalance among the ratio frequency (RF) channels are converted to amplitude and phase errors. Computational complexity of the subspace algo-rithm is reduced by adding specific array phase differences to the baseband. Computer simulation based on a 7-element planar hexagonal antenna array illustrates the validity of the method. The performance of the algo-rithm is contrasted under different signal noise ratio (SNR) conditions and thus leads to the conclusion that the antenna error estimation precision can be improved by increasing the signal transmitting power. Simulation re-sults show that the proposed method is of value for engineering application in satellite communication systems.
