Title :
Performance comparison of PRF schedules for medium PRF radar
Author :
Wiley, Dale ; Parry, Scott ; Alabaster, Clive ; Hughes, Evan
Author_Institution :
R. Australian Air Force, England, UK
fDate :
4/1/2006 12:00:00 AM
Abstract :
Previous work has shown how evolutionary algorithms (EAs) are an effective tool in optimising the selection of pulse repetition frequency (PRF) values of medium PRF schedules in an airborne fire control radar (FCR) application requiring target data in three PRFs. The optimisation is driven by the requirement to minimise range/Doppler blindness whilst maintaining full decodability. In this paper we detail work in which the optimisation process is applied to design novel short medium PRF schedules requiring target data in just two PRFs. The paper reports on the testing of a variety of near-optimum schedules to compare their blindness, decoding, and ghosting performances. The results show that in many situations, the 2 of N schedules are a practical alternative to conventional 3 of N processing.
Keywords :
Doppler radar; decoding; evolutionary computation; optimisation; radar signal processing; radar target recognition; Doppler blindness; PRF schedules; airborne fire control radar application; decoding; evolutionary algorithms; medium PRF radar; optimisation process; pulse repetition frequency; Airborne radar; Blindness; Decoding; Design optimization; Doppler radar; Evolutionary computation; Fires; Frequency; Radar applications; Testing;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2006.1642575
