Large-Aperture Sparse Array Antenna Systems of Moderate Bandwidth for Multiple Emitter Location

Abstract

Spatial Linear Prediction Filter (SLPF) antenna systems of large aperture width (in wave-lengths) are described for the superresolution estimation of multiple emitter locations over moderate bandwidths. To accomplish this difficult task with reasonably few degrees-of-freedom (DOF) from the large aperture, the system employs interferometer/sparse array techniques in conjunction with a shaped reference beam which may be steered to the spatial sector of interest. Computer simulations on several multiple source examples have demonstrated that the concept is feasible, provided that true time-delay steering is employed on the shaped reference beam. The optimal estimation system configuration results when time-delay steering is also applied to the interferometer elements, because this focuses the sample covariance matrix and minimizes the DOF required. Even transversal filters may be dispensed with under focused conditions if the bandwidth is moderate. System performance goals included high-resolution with few DOF, fast response/processing time, moderate cost, and ease of frequent calibration. Keywords include: Antennas; Arrays, Spatial spectral analysis, Adaptive, Emitter location, and Linear prediction filters.

Document Details

Document Type

Technical Report

Publication Date

Nov 19, 1987

Accession Number

ADA188409

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