Augusto Aubry;Marco Boddi;Antonio De Maio;Massimo Rosamilia
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引用次数: 0
摘要
本文利用窄带偏振阵列传感系统解决到达方向(DOA)估计问题。所考虑的接收设备由两个具有正交极化的传感器子阵列组成。通过稀疏表示对接收信号进行适当建模(考虑到多个快照和偏振阵列流形结构),设计了两种迭代算法,即通过迭代最小化进行偏振稀疏学习(POL-SLIM)和基于协方差的偏振稀疏迭代估计(POL-SPICE),以完成估计任务。所提出的算法可提供精确的 DOA 估计值,同时具有良好的(经严格证明的)收敛特性。数值分析表明,POL-SLIM 和 POL-SPICE 在被动传感应用(收集大量快照)和雷达空间处理中成功定位信号源的有效性,与单极化对应算法和理论基准相比也是如此。
This paper addresses the Direction-of-Arrival (DOA) estimation problem using a narrowband polarimetric array sensing system. The considered receiving equipment is composed of two sub-arrays of sensors with orthogonal polarizations. By suitably modeling the received signal via a sparse representation (accounting for the multiple snapshots and the polarimetric array manifold structure), two iterative algorithms, namely Polarimetric Sparse Learning via Iterative Minimization (POL-SLIM) and Polarimetric Sparse Iterative Covariance-based Estimation (POL-SPICE), are devised to accomplish the estimation task. The proposed algorithms provide accurate DOA estimates while enjoying nice (rigorously proven) convergence properties. Numerical analysis shows the effectiveness of POL-SLIM and POL-SPICE to successfully locate signal sources in both passive sensing applications (with large numbers of collected snapshots) and radar spatial processing, also in comparison with single-polarization counterparts as well as theoretical benchmarks.
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