Title :
A minimax approach to the design of Doppler filters
Author :
Steiner, Michael
Author_Institution :
US Naval Res. Lab., Washington, DC, USA
fDate :
5/1/1991 12:00:00 AM
Abstract :
The detection of a target in correlated clutter, thermal noise, and extraneous interference is considered. The amplitude, phase and Doppler frequency of the signal are not known a priori. A general criterion is presented which measures the performance of a suboptimal test relative to an optimal test. The criterion is encompassed into a design procedure used to design Doppler filters. The procedure allows many design considerations to be taken into account, and results in a design which attempts to minimize the number of filters required. For low dimensionality the procedure results in single filter designs; for higher dimensionality multiple filters are designed. The performances of these systems are compared with the results obtained by Emerson (1978) and Andrews (1974). It is found that the procedure yields good filter designs under general conditions and may reduce the number of filters required compared with classical designs
Keywords :
Doppler effect; filtering and prediction theory; filters; minimax techniques; radar clutter; signal detection; thermal noise; Doppler filters; Doppler frequency; correlated clutter; dimensionality; extraneous interference; minimax; multiple filters; network synthesis; optimal test; single filter; suboptimal test; target detection; thermal noise; Clutter; Covariance matrix; Frequency; Gain measurement; Interference; Matched filters; Minimax techniques; Power measurement; Radar; Testing;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
