Title :
Source Localization Using Sparse Large Aperture Arrays
Author :
Manikas, Athanassios ; Kamil, Yousif I. ; Willerton, Marc
Author_Institution :
Dept. of Electr. & Electron. Eng., Imperial Coll. London, London, UK
Abstract :
In this paper, a novel source/target localization approach is proposed using a number of sensors (surrounding or not surrounding one or more sources) to form a sparse large aperture array of known geometry. Under a large array aperture, the array response (manifold vector) obeys a spherical wave rather than a plane wave propagation model. By rotating the array reference point to be at each of the array sensors, a number of covariance matrices are constructed. It is shown that the eigenvalues of these covariance matrices are related to the source location with respect to the array reference point. The proposed approach is robust to channel fading and considers both wideband and narrowband assumptions. The performance of the proposed approach is evaluated via simulations as a function of array geometry, number of snapshots (L) and signal to noise ratio (SNR) and is shown to exceed existing techniques.
Keywords :
array signal processing; covariance matrices; eigenvalues and eigenfunctions; electromagnetic wave propagation; fading channels; sensor arrays; sensor placement; array geometry; array reference point; array response; covariance matrix; eigenvalue; fading channel; narrowband assumption; sensor array; signal to noise ratio; source localization; sparse large aperture array; spherical wave propagation model; target localization; wideband assumption; Apertures; Array signal processing; Direction of arrival estimation; Measurement; Sensor arrays; Vectors; Array processing; large aperture arrays; localization; sparse arrays; spherical wave propagation;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2012.2210886
