基于有限新息率的正交偶极子阵列信号参数估计算法

为解决极化敏感阵列波达方向(DOA)估计中压缩感知类算法的网格失配问题，该文提出一种基于有限新息率(FRI)的正交偶极子阵列无网格信号参数估计算法。首先，利用均匀正交偶极子线阵中不同极化指向天线的两个子阵，求取其自相关矩阵之和，并通过协方差拟合准则恢复出满足Toeplitz结构的协方差矩阵。然后，利用该协方差矩阵构建FRI信号重构模型，求解以重构结果为系数的多项式的零点，就可以得到入射信号DOA参数的估计结果。最后，根据已估计出的DOA参数以及两个子阵的自相关矩阵和互相关矩阵，利用最小二乘法计算得到入射信号的极化参数估计结果。仿真实验表明，该算法与子空间类和压缩感知类算法相比，具有更高的估计精度及更好的角度分辨力。

Signal Parameter Estimation Algorithm for Orthogonal Dipole Array Based on Finite Rate of Innovation

To deal with the grid mismatch problem of compressed sensing algorithms in polarization-sensitive array Direction Of Arrival (DOA) estimation, a gridless signal parameter estimation algorithm for orthogonal dipole array based on Finite Rate of Innovation (FRI) is proposed. First, two sub-arrays of the uniform orthogonal dipole linear array with the different antenna polarization direction, are used to obtain the sum of their self-correlation covariance matrix, and the covariance matrix satisfying the Toeplitz structure is recovered through the covariance fitting criteria. Then, the covariance matrix is used to construct the FRI signal reconstruction model, and the zeros of the polynomial with the reconstruction result as the coefficient is solved to obtain the estimation result of the DOA parameter of the incident signal. Finally, using the estimated DOA parameters and the self-correlation covariance matrix and cross-correlation covariance matrix of the two sub-arrays, the least square method is used to calculate the polarization parameter estimation results of the incident signal. Simulation experiments show that this algorithm has higher estimation accuracy and angle resolution compared with subspace and compressed sensing algorithms.