DocumentCode
1634979
Title
Wideband direction-of-arrival estimation using fast chirplet-based adaptive signal decomposition algorithm
Author
Feng, Aigang ; Zhao, Zheng ; Yin, Qinye
Author_Institution
Inst. of Inf. Eng., Xi´´an Jiaotong Univ., China
Volume
3
fYear
2001
fDate
6/23/1905 12:00:00 AM
Firstpage
1432
Abstract
The direction-of-arrival (DOA) is one of important parameters, in addition to time-of-arrival (TOA) and attenuation, to describe most radio propagation channel models. Time-frequency analysis is a powerful technique to deal with time-variant or non-stationary signals. Although M.G. Amin (see Gersham, A.B. and Amin, M.G., IEEE Sig. Proc. Letters, vol.7, no.6, p.152-5, 2000; Belouchrani, A. and Amin, M.G., IEEE Sig. Proc. Letters, vol.6, no.5, p.109-10, 1999) and L. Jin et al. (see IEEE Int. Symp. on Circuits and Systems, p.375-8, 2000) combined it with a coherent signal subspace (CSS) approach, it is not easy to extend from the narrowband to the wideband case. We first overview the fast chirplet-based signal decomposition algorithm, then build the general time-frequency covariance matrix to overlap the narrowband and wideband of CSS. After discussing the difference between the two cases, we propose a wideband DOA estimation algorithm with fast chirplet-based adaptive signal decomposition. The algorithm has no restriction to the array manifold. We give the comparison of our proposed algorithm with the optimal solution of maximum likelihood (ML). We can see that the proposed algorithm has very low complexity. Its robust performance is demonstrated with numerical simulations
Keywords
adaptive signal processing; array signal processing; chirp modulation; covariance matrices; direction-of-arrival estimation; maximum likelihood estimation; radiowave propagation; telecommunication channels; time-frequency analysis; DOA estimation; adaptive signal decomposition algorithm; antenna array signal; array manifold; chirplet-based signal decomposition algorithm; coherent signal subspace approach; covariance matrix; maximum likelihood estimation; nonstationary signal; radio propagation channel models; time-frequency analysis; time-variant signal; wideband direction-of-arrival estimation; Attenuation; Cascading style sheets; Chirp; Circuits and systems; Direction of arrival estimation; Narrowband; Radio propagation; Signal resolution; Time frequency analysis; Wideband;
fLanguage
English
Publisher
ieee
Conference_Titel
Vehicular Technology Conference, 2001. VTC 2001 Fall. IEEE VTS 54th
Conference_Location
Atlantic City, NJ
ISSN
1090-3038
Print_ISBN
0-7803-7005-8
Type
conf
DOI
10.1109/VTC.2001.956433
Filename
956433
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