Title :
Multiframe detector/tracker: optimal performance
Author :
Bruno, Marcelo G S ; Moura, José M F
Author_Institution :
Dept. of Electr. Eng., Sao Paulo Univ., Brazil
fDate :
7/1/2001 12:00:00 AM
Abstract :
We develop the optimal Bayes multiframe detector/tracker for rigid extended targets that move randomly in clutter. The performance of this optimal algorithm provides a bound on the performance of any other suboptimal detector/tracker. We determine by Monte Carlo simulations the optimal performance under a variety of scenarios including spatially correlated Gaussian clutter and non-Gaussian (K and Weibull) clutter. We show that, for similar tracking performance, the optimal Bayes tracker can achieve peak signal-to-noise ratio gains possibly larger than 10 dB over the commonly used combination of a spatial matched filter (spatial correlator) and a linearized Kalman-Bucy tracker. Simulations using real clutter data with a simulated target suggest similar performance gains when the clutter model parameters are unknown and estimated from the measurements
Keywords :
Bayes methods; Monte Carlo methods; correlation theory; radar clutter; radar detection; radar tracking; target tracking; K clutter; Monte Carlo simulations; Weibull clutter; clutter; clutter model parameters; linearized Kalman-Bucy tracker; nonGaussian clutter; optimal Bayes multiframe detector/tracker; peak signal-to-noise ratio gains; performance gains; real clutter data; rigid extended targets; simulated target; spatial correlator; spatial matched filter; spatially correlated Gaussian clutter; Clutter; Detectors; Image sensors; Infrared image sensors; Noise measurement; Optical sensors; Performance gain; Radar tracking; State estimation; Target tracking;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
