Near-field source localization in complex indoor environment using uniform circular array

In this paper, we propose a covariance matrix matching technique using a uniform circular array (UCA) to localize a near-field source in indoor multi-path environment. Firstly, we exploit off-line measured covariance matrices for suitable spaced reference points and storing these matrices as a fingerprint; Secondly, a matrix matching algorithm is designed to obtain the position of source. Compared with received signal strength (RSS) fingerprint, covariance matrix can offer more channel information of indoor environment, hence, our proposed algorithm outperforms RSS based algorithm in accuracy of localization. Finally, some simulation results show the efficacy of our proposed technique.

[1]  H. Tsuji,et al.  Indoor Localization using Subspace Matching: An Experimental Evaluation , 2006, Fourth IEEE Workshop on Sensor Array and Multichannel Processing, 2006..

[2]  M. Omair Ahmad,et al.  Efficient Application of MUSIC Algorithm Under the Coexistence of Far-Field and Near-Field Sources , 2012, IEEE Transactions on Signal Processing.

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

[4]  Ilan Ziskind,et al.  Maximum likelihood localization of multiple sources by alternating projection , 1988, IEEE Trans. Acoust. Speech Signal Process..

[5]  Anthony J. Weiss,et al.  On the accuracy of a cellular location system based on RSS measurements , 2003, IEEE Trans. Veh. Technol..

[6]  M. Nezafat,et al.  Indoor Localization Using a Spatial Channel Signature Database , 2006, IEEE Antennas and Wireless Propagation Letters.

[7]  Michael Yan Wah Chia,et al.  Near-Field Source Localization via Symmetric Subarrays , 2007, IEEE Signal Processing Letters.

[8]  Thomas Kailath,et al.  ESPRIT-estimation of signal parameters via rotational invariance techniques , 1989, IEEE Trans. Acoust. Speech Signal Process..

[9]  K. Pahlavan,et al.  In-building intruder detection for WLAN access , 2004, PLANS 2004. Position Location and Navigation Symposium (IEEE Cat. No.04CH37556).