Title :
Performance bounds for hot and cold clutter mitigation
Author :
Techau, P.M. ; Guerci, J.R. ; Slocumb, T.H. ; Griffiths, L.J.
Author_Institution :
Information Syst. Lab. Inc., Vienna, VA, USA
fDate :
10/1/1999 12:00:00 AM
Abstract :
A new method is presented for describing the theoretical interference space-time covariance matrix that will be observed in an adaptive airborne radar system under specific topographical conditions. Both hot clutter that is induced by interfering sources and cold clutter that results from the radar transmitter are considered. This method incorporates phenomenology observed under site specific conditions as well as system effects such as array geometry, receiver filtering, and system bandwidth. Use of this formulation rather than sample data analyses that are generally employed enables one to infer performance bounds for site-specific, and thus generally, heterogeneous terrain that are tighter and therefore more meaningful than the thermal noise floor limit
Keywords :
adaptive radar; airborne radar; array signal processing; covariance matrices; digital simulation; radar clutter; stochastic systems; adaptive airborne radar; array geometry; clutter mitigation; cold clutter; heterogeneous terrain; hot clutter; interfering sources; optimisation; performance bounds; radar transmitter; receiver filtering; sample data; space-time covariance matrix; system bandwidth; thermal noise floor limit; topographical conditions; Adaptive systems; Airborne radar; Bandwidth; Covariance matrix; Data analysis; Filtering; Geometry; Interference; Radar clutter; Transmitters;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
