Title :
Passive localization of frequency-agile radars from angle and frequency measurements
Author_Institution :
Res. Inst. for Electron. & Math., Germany
fDate :
10/1/1999 12:00:00 AM
Abstract :
It is well known that the position of a stationary radar can be estimated by a single moving observer from angle and/or frequency measurements taken passively at different points in its trajectory. Depending on the measurement set different localization methods result: the bearing method (BM), the frequency method (FM), and the combined method (CM). Previous studies analyze the three methods on the basis of constant emitter frequencies. However, radars with constant emitter frequencies are not realistic. Frequency drift and frequency hopping have to be taken into account. Therefore, to include radars the emitter model has been extended by drift and frequency hopping in this study, and the estimation methods have been reanalyzed. The effects of the model extensions become transparent in a parametric Cramer-Rao (CR) analysis. The results obtained in this way are confirmed by Monte Carlo simulations taking maximum likelihood (ML) as estimation procedure
Keywords :
Monte Carlo methods; frequency agility; radar theory; spread spectrum radar; Monte Carlo simulations; angle measurements; bearing method; combined method; emitter model; estimation methods; frequency drift; frequency hopping; frequency measurements; frequency method; frequency-agile radars; localization methods; maximum likelihood estimation; parametric Cramer-Rao analysis; single moving observer; stationary radar; Chromium; Electronics cooling; Frequency estimation; Frequency measurement; Goniometers; Mathematics; Maximum likelihood estimation; Particle measurements; Passive radar; Radar measurements;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
