Journal of Jilin University(Engineering and Technology Edition) ›› 2021, Vol. 51 ›› Issue (6): 2237-2245.doi: 10.13229/j.cnki.jdxbgxb20200694

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Wideband signal direction of arrival estimation based on compressed sensing theory

Hui-jing DOU(),Gang DING,Jia GAO,Xiao LIANG   

  1. Department of Information Science,Beijing University of Technology,Beijing 100124,China
  • Received:2020-09-04 Online:2021-11-01 Published:2021-11-15

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Abstract:

In order to solve the problem that the Direction of Arrival (DOA) estimation of one-dimensional wideband signal needs angle estimation, a DOA estimation algorithm without angle estimation is designed on the basis of bilateral correlation transform algorithm. Firstly, the wideband signal is decomposed into several narrow-band data models at different frequency points by using Discrete Fourier Transform (DFT). Secondly, the narrow-band data at different frequency points are focused on the same reference frequency point by the improved focusing matrix, thus, the narrow-band signal model at a single frequency point is obtained. Finally, the improved array covariance matrix sparse iterative estimation algorithm is used to solve the problem. Theoretical research shows that the proposed method has higher estimation accuracy and resolution than the traditional algorithm under the condition of low SNR and multiple snapshots, and the computational complexity of the algorithm is effectively reduced by combining with compressed sensing theory. The simulation results verify the reliability of the above conclusions.

Key words: signal and information processing, direction of arrival(DOA) estimation, compressive sensing, focusing transformatio

CLC Number: 

  • TN911.7

Table 1

Contrast table of focus transformationcriteria and focus matrix"

TCT算法聚焦变换准则T(fj)?A(fj,θ)S(fj)=A(f0,θ)S(f0)
聚焦矩阵T(fj)=Q(f0)QH(fj)
RSS算法聚焦变换准则T(fj)?A(fj,θ)=A(f0,θ)
聚焦矩阵T(fj)=V(fj,θ)UH(fj,θ)

MTLS-CSSM

算法

聚焦变换准则T(fj)?A(fj,θ)=A(f0,θ)
聚焦矩阵T(fj)=A0(A0HA0)-1/2(AjHAj)-1/2AjH

Fig.1

Comparison of DOA estimation effectiveness under different SNR"

Fig.2

Performance comparison of three algorithms when angle approaches"

Fig.3

Comparison of success rate of the algorithm under different angle intervals"

Fig.4

Comparison of DOA estimation successrate under different SNR"

Fig.5

Comparison of DOA estimation success rate under different snapshot number"

Fig.6

RMS error curve under different SNR"

Fig.7

RMS error curve under differentsnapshot number"

Table 2

Running time comparison of different algorithms"

算法复杂度运行时间/s
TCTO(M3+2N3M3+N2M3)2.735 147
l1-SRACVO(M3N3)2.290 214
本文O(kN3M3+M2)2.435 238
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