Publication | Closed Access
Closed-form eigenstructure-based direction finding using arbitrary but identical subarrays on a sparse uniform Cartesian array grid
189
Citations
7
References
2000
Year
Numerical AnalysisSampling (Signal Processing)EngineeringSensor ArrayOcean AcousticsArray ComputingSpeaker LocalizationMatrix MethodComputational ElectromagneticsUnderwater CommunicationAcoustic Signal ProcessingComputational GeometryClosed-form Eigenstructure-based DirectionComputer EngineeringInverse ProblemsComputer ScienceElectromagnetic Vector SensorsMatrix AnalysisSignal ProcessingIdentical SubarraysArray ProcessingThin Array GridSpatial Nyquist
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.
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