针对窄带和宽带两种情形,提出了一种基于同点正交磁环偶极子矢量天线(Co-centered orthogonal loop and dipole,COLD)阵列的联合稀疏重构信号波达方向(Direction-of-arrival,DOA)估计方法。该方法首先构造极化-空间域协方差矩阵,并对其...针对窄带和宽带两种情形,提出了一种基于同点正交磁环偶极子矢量天线(Co-centered orthogonal loop and dipole,COLD)阵列的联合稀疏重构信号波达方向(Direction-of-arrival,DOA)估计方法。该方法首先构造极化-空间域协方差矩阵,并对其第一列进行稀疏表示,在此基础上利用COLD阵列可视为相互垂直的磁环阵列和偶极子阵列这一特点,采用l2-范数约束下的凸优化(l1-范数)联合稀疏重构技术实现信号DOA估计。仿真实验表明,该方法较之现有方法具有分辨力高、估计精度高等优点。展开更多
It is required in the diagonally loaded robust adaptive beamforming the automatic determination of the loading level which is practically a challenging problem.A constant modulus restoral method is herein presented to...It is required in the diagonally loaded robust adaptive beamforming the automatic determination of the loading level which is practically a challenging problem.A constant modulus restoral method is herein presented to choose the diagonal loading level adaptively for the extraction of a desired signal with constant modulus(a common feature of the phase modulation signals).By introducing the temporal smoothing technique,the proposed constant modulus restoral diagonally loaded robust adaptive beamformer provides increased capability compared with some existing robust adaptive beamformers in rejecting interferences and noise while protecting the signal-of-interest.Simulation results are included to illustrate the performance of the proposed beamformer.展开更多
文摘针对窄带和宽带两种情形,提出了一种基于同点正交磁环偶极子矢量天线(Co-centered orthogonal loop and dipole,COLD)阵列的联合稀疏重构信号波达方向(Direction-of-arrival,DOA)估计方法。该方法首先构造极化-空间域协方差矩阵,并对其第一列进行稀疏表示,在此基础上利用COLD阵列可视为相互垂直的磁环阵列和偶极子阵列这一特点,采用l2-范数约束下的凸优化(l1-范数)联合稀疏重构技术实现信号DOA估计。仿真实验表明,该方法较之现有方法具有分辨力高、估计精度高等优点。
基金Supported by the National Natural Science Foundation of China(No.61490691,61331019)
文摘It is required in the diagonally loaded robust adaptive beamforming the automatic determination of the loading level which is practically a challenging problem.A constant modulus restoral method is herein presented to choose the diagonal loading level adaptively for the extraction of a desired signal with constant modulus(a common feature of the phase modulation signals).By introducing the temporal smoothing technique,the proposed constant modulus restoral diagonally loaded robust adaptive beamformer provides increased capability compared with some existing robust adaptive beamformers in rejecting interferences and noise while protecting the signal-of-interest.Simulation results are included to illustrate the performance of the proposed beamformer.
