Abstract
In practice, there are many circular and non-circular signals due to multipath propagation and various modulations. Conventional direction-of-arrival (DOA) estimation in a mixture of circular and non-circular signals cannot distinguish two kind of signals and detect more sources than number of sensors at the same time. This paper proposes a novel separation algorithm based on elliptic covariance matrix (ECM) which possesses accurate DOA estimation and high degrees of freedom (DOF) with low complexity. Firstly it estimates non-circular signals using ECM which contains non-circular information merely. Considering that the virtual array generated from nested array using ECM is inconsecutive, a matrix completion method via nuclear norm minimization is also included and as a result, the freedom degrees are further extended. On the basis of ECM, the paper also introduces a separation algorithm through subtraction of two reconstructed Toeplitz covariance matrix (CM). Detailed analysis and theoretically proof is presented subsequently and DOAs of circular signals can be obtained after separation. Simulation results show that the proposed algorithm can realize underdetermined estimation and get accurate DOAs while two kind of signals are separated simultaneously.
Highlights
Direction-of-arrival estimation is a significant problem in array signal processing [1]
To assess the accuracy of them, we firstly introduce the root mean square error (RMSE), which is defined as RMSE = QK
The underdetermined DOA estimation in presence of mixed circular and non-circular signals is considered throughout the paper, and an elliptic covariance matrix (ECM)-based algorithm is proposed to cope with this problem
Summary
Direction-of-arrival estimation is a significant problem in array signal processing [1]. The non-circularity of impinging sources has been exploited in [17] to improve the performance of DOA estimation based on nested array. This paper focuses on underdetermined DOA estimation of high accuracy in a mixture of circular and non-circular signals using nested array. Solving the problem of DOA estimation in a mixture of circular and non-circular signals with high accuracy and DOF is the main concern throughout the paper. A Toeplitz covariance matrix resolving DOAs of non-circular sources is constructed with ECM In this process, holes in virtual array appear and a method based on matrix completion is introduced to recover the missing values in reconstructed covariance matrix, which can increase the number of detectable sources.
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