Title :
Effect of glint errors on steady-state tracking accuracies of maneuvering targets
Author_Institution :
Elta Electron., Ashdod, Israel
Abstract :
The effect of glint errors on target tracking accuracies is studied by various analytical means. The glint error is modeled as a first-order Markov process, characterized by a correlation time (τ) and a position error variance. The target motion is described by one of two dynamic models: the exponentially correlated velocity model and the exponentially correlated acceleration model. For both models, the steady-state variance of the estimated target velocity exhibits resonant behavior whenever the time-constant for target maneuvers is close to τ. The analysis is simplified through the use of some mathematical tricks, which may themselves be of interest to Kalman filter specialists
Keywords :
Markov processes; radar theory; tracking systems; correlation time; dynamic models; exponentially correlated acceleration model; exponentially correlated velocity model; first-order Markov process; glint errors; maneuvering targets; measurement errors; position error variance; resonant behavior; steady-state tracking accuracies; steady-state variance; target motion; target velocity; time-constant; Acceleration; Bandwidth; Colored noise; Equations; Markov processes; Measurement errors; Noise measurement; Radar tracking; Steady-state; Target tracking;
Conference_Titel :
Radar Conference, 1990., Record of the IEEE 1990 International
Conference_Location :
Arlington, VA
DOI :
10.1109/RADAR.1990.201205
