Title :
Non-Gaussian clutter modeling with generalized spherically invariant random vectors
Author :
Barnard, Thomas J. ; Weiner, Donald D.
Author_Institution :
Ocean Radar & Sensor Syst., Lockheed Martin Corp., Syracuse, NY, USA
fDate :
10/1/1996 12:00:00 AM
Abstract :
This paper describes the modeling of non-Gaussian clutter with a set of generalized spherically invariant random vectors (SIRV´s). The generalization extends the traditional model to account for dependence between successive SIRV realizations. Significant properties of generalized SIRV´s are derived, as well as a closed-form expression for a family of generalized SIRV density functions. The density underlying recorded sonar reverberation is approximated with this function through appropriate choice of a shape parameter. Given this reverberation model, the optimum detector is derived from the generalized SIRV density likelihood ratio. This paper concludes by showing how applying this optimum detector to non-Gaussian data leads to a reduction in the false alarm rate when compared to processing with a matched filter alone
Keywords :
clutter; radar clutter; radar detection; radar signal processing; random processes; reverberation; sonar signal processing; SIRV density functions; false alarm rate; generalized SIRV density likelihood ratio; generalized spherically invariant random vectors; matched filter; nonGaussian clutter modeling; optimum detector; radar; reverberation model; shape parameter; sonar reverberation; Closed-form solution; Density functional theory; Detectors; Fluctuations; Matched filters; Radar clutter; Radar detection; Reverberation; Shape; Sonar;
Journal_Title :
Signal Processing, IEEE Transactions on
