Title :
Closed-form eigenstructure-based direction finding using arbitrary but identical subarrays on a sparse uniform Cartesian array grid
Author :
Zoltowski, Michael D. ; Wong, Kainam Thomas
Author_Institution :
Sch. of Electr. & Comput. Eng., Purdue Univ., West Lafayette, IN, USA
fDate :
8/1/2000 12:00:00 AM
Abstract :
A sparse uniform Cartesian-grid array suffers cyclic ambiguity in its Cartesian direction-cosine estimates due to the spatial Nyquist sampling theorem. The proposed MUSIC-based or MODE-based algorithm improves and generalizes previous disambiguation schemes that populate the thin array grid with identical subarrays-such as electromagnetic vector sensors, underwater acoustic vector hydrophones, or half-wavelength spaced subarrays
Keywords :
acoustic signal processing; array signal processing; direction-of-arrival estimation; eigenvalues and eigenfunctions; hydrophones; radio direction-finding; sensors; signal classification; signal sampling; underwater sound; Cartesian direction-cosine estimates; MODE-based algorithm; MUSIC-based algorithm; closed-form eigenstructure-based direction finding; cyclic ambiguity; disambiguation schemes; electromagnetic vector sensors; half-wavelength spaced subarrays; identical subarrays; sparse uniform Cartesian array grid; spatial Nyquist sampling theorem; thin array grid; underwater acoustic vector hydrophones; Acoustic arrays; Acoustic sensors; Geometry; Intelligent sensors; Narrowband; Phased arrays; Radar signal processing; Sensor arrays; Signal processing algorithms; Underwater acoustics;
Journal_Title :
Signal Processing, IEEE Transactions on
