Estimation of direction-of-arrival and frequency based on state-space model

被引：0

作者：

Zhang Z.-C. ^{[1
]}

Shi Y.-W. ^{[1
]}

机构：

[1] School of Communication Engineering, Jilin University

来源：

Guangxue Jingmi Gongcheng/Optics and Precision Engineering | 2011年 / 19卷 / 04期

关键词：

DOA estimation; Frequency estimation; Joint estimation; State-space model;

D O I：

10.3788/OPE.20111904.0916

中图分类号：

学科分类号：

摘要：

In order to reduce the computational complexity and pair the parameters automatically in multiparameter estimation for array sensors, an algorithm for joint the Direction-of-arrival (DOA) signal and frequency signal based on a state-space model was presented. Firstly, a special state-space model with system matrices including the DOA and frequency information was constructed. Then the second order statistical properties were taken to restrain the noise by using appropriate auxiliary variable, and the extended observability matrix was estimated by using orthogonal projection theory and singular value decomposition. Finally, the estimation of system matrices was obtained from the generalized observability matrix, and the DOA and frequency of the signal were estimated from the eigenvalue decomposition of system matrix. Simulation results are presented to demonstrate the effectiveness of the algorithm, and the results show that the RMSE of frequency estimation is 0.0035 rad and that of DOA estimation is 0.38° under the condition of estimating two signal sources with 0 dB for SNR.

引用

页码：916 / 921

页数：5

共 13 条

[1] Zatman M.A., Strangeways H.J., An efficient joint direction of arrival and frequency ML estimator, Antennas and Propagation Society International Symposium, pp. 431-434, (1995)
[2] Atheley F., Asymptotically decoupled angle-frequency estimation with sensor arrays, The Thirty-Third Asilomar Conference On Signal, Systems & Computers, pp. 1098-1102, (1999)
[3] Viberg M., Stoica P., A computationally efficient method for joint direction finding and frequency estimation in colored noise, The Thirty-Second Asilomar Conference On Signal, Systems & Computers, pp. 1547-1551, (1998)
[4] Lemma A.N., van der Veen A.J., Deprettere E.F., Joint angle-frequency estimation using multi-resolution esprit, IEEE International Conference on ICASSP-98, pp. 1957-1960, (1998)
[5] Chen Y.H., Chen C.H., Direction-of-arrival and frequency estimations for narrowband sources using two single rotation invariance algorithms with the marked subspace, Radar and Signal Processing, 139, pp. 297-300, (1992)
[6] Ge L.J., Chen T.W., Huang X.F., Simultaneous frequency and direction estimation from parallel-array data, Radar, Sonar and Navigation, 142, pp. 6-10, (1995)
[7] Haardt M., Nossek J.A., 3-D unitary ESPRIT for joint 2-D angle and carrier estimation, IEEE International Conference on ICASSP-97, pp. 255-258, (1997)
[8] Wang L., Chen T.Q., Frequency and DOA estimation of LTF in fractional Fourier domain, IEEE International Conference on Communication and Circuits, pp. 1029-1033, (2002)
[9] Lemma A.N., van der Veen A.J., Deprettere E.F., Analysis of joint angle-frequency estimation using ESPRIT, IEEE Signal Processing, 5, pp. 1264-1283, (2003)
[10] Lin J.D., Fang W.H., Wang Y.Y., Et al., FSF MUSIC for Joint DOA and frequency estimation and its performance analysis, IEEE Signal Processing, 12, pp. 4529-4542, (2006)

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