A 2-D DOA Estimation Method With Reduced Complexity in Unfolded Coprime L-Shaped Array

In this article, we focus on investigating the two-dimensional direction of arrival (2-D DOA) estimation for the unfolded coprime L-shaped array (UCLsA). Due to 2-D spectral peak searching, the computational complexity of the existing 2-D DOA estimation methods based on the multiple signal classification (MUSIC) algorithm is too high. Motivated by this, we propose a novel low-complexity 2-D DOA estimation method based on MUSIC, where the 2-D spectral peak searching is converted to 1-D searching by constructing a transform domain. Moreover, the proposed method makes full use of the received signals to calculate the noise subspace, which can take advantages of the large array aperture and mutual information of the UCLsA and, significantly, improve the estimation accuracy. Simulation results demonstrate that: 1) the proposed method achieves similar performance to the Cramer–Rao bound (CRB); 2) the proposed method outperforms the existing 2-D DOA estimation algorithms; and 3) the implementation cost of the proposed method is lower than those of the existing methods.

[1]  N. Tayem,et al.  L-shape 2-dimensional arrival angle estimation with propagator method , 2005, IEEE Transactions on Antennas and Propagation.

[2]  Abdelhak M. Zoubir,et al.  Joint 2-D DOA Estimation and Phase Calibration for Uniform Rectangular Arrays , 2012, IEEE Transactions on Signal Processing.

[3]  Deyue Zou,et al.  Toward Ubiquitous LBS: Multi-Radio Localization and Seamless Positioning , 2016, IEEE Wireless Communications.

[4]  Youguang Zhang,et al.  DOA estimation and self-calibration algorithm for uniform circular array , 2005 .

[6]  Tiejun Lv,et al.  An ESPRIT-Based Approach for 2-D Localization of Incoherently Distributed Sources in Massive MIMO Systems , 2014, IEEE Journal of Selected Topics in Signal Processing.

[7]  Liping Li,et al.  A Computationally Efficient Subspace Algorithm for 2-D DOA Estimation with L-shaped Array , 2014, IEEE Signal Process. Lett..

[9]  Wang Zheng,et al.  Unfolded coprime L-shaped arrays for two-dimensional direction of arrival estimation , 2018 .

[10]  Michael D. Zoltowski,et al.  Closed-form 2-D angle estimation with rectangular arrays in element space or beamspace via unitary ESPRIT , 1996, IEEE Trans. Signal Process..

[11]  Guowei Zhang,et al.  Reduced Dimension Based Two-Dimensional DOA Estimation with Full DOFs for Generalized Co-Prime Planar Arrays , 2018, Sensors.

[12]  P. P. Vaidyanathan,et al.  Sparse Sensing With Co-Prime Samplers and Arrays , 2011, IEEE Transactions on Signal Processing.

[13]  R. O. Schmidt,et al.  Multiple emitter location and signal Parameter estimation , 1986 .

[14]  Zheng Wang,et al.  Two-dimensional direction of arrival estimation for coprime planar arrays via a computationally efficient one-dimensional partial spectral search approach , 2017 .

[15]  Zhi Zhang,et al.  Decoupled 2-D Direction of Arrival Estimation in L-Shaped Array , 2017, IEEE Communications Letters.