Title :
FCA-ESPRIT: a closed-form 2-D angle estimation algorithm for filled circular arrays with arbitrary sampling lattices
Author :
Ramos, Javier ; Mathews, Cherian P. ; Zoltowski, Michael D.
Author_Institution :
Dept. of Eng., Carlos III Univ., Leganes, Spain
fDate :
1/1/1999 12:00:00 AM
Abstract :
This article addresses the simultaneous estimation of the azimuth and elevation angles of multiple co-channel signals incident upon an array of antennas. A new closed-form algorithm that is applicable with filled circular arrays (FCAs) is presented. The algorithm, which is called FCA-ESPRIT, is applicable with any FCA geometry, e.g., FCAs constructed using rectangular, hexagonal, polar, or random sampling lattices. The only constraint imposed on the FCA geometry is that the spacing between adjacent sensors should be half a wavelength or less on average across the entire aperture. The algorithm provides automatically paired azimuth and elevation angle estimates by solving a set of ESPRIT-like equations wherein the unknowns have the form sin(θ i)ejφ(i) (where θi and φ i are the elevation and azimuth angles of the ith source, respectively). The algorithm provides arrival angle estimates via a closed-form procedure-it does not require computationally expensive search or optimization procedures
Keywords :
antenna arrays; array signal processing; direction-of-arrival estimation; signal sampling; ESPRIT-like equations; FCA geometry; FCA-ESPRIT; antenna array; arrival angle estimates; azimuth estimation; closed-form 2D angle estimation algorithm; computational complexity reduction; elevation angles; filled circular arrays; multiple co-channel signals; polar sampling lattice; random sampling lattice; rectangular lattice; Antenna arrays; Apertures; Azimuth; Coordinate measuring machines; Geometry; Lattices; Radar antennas; Radar signal processing; Sampling methods; Signal processing algorithms;
Journal_Title :
Signal Processing, IEEE Transactions on
