Title :
Reduced state estimator for systems with parametric inputs
Author :
Mookerjee, Purusottam ; Reifler, Frank
Author_Institution :
Lockheed Martin Corp., Moorestown, NJ, USA
fDate :
4/1/2004 12:00:00 AM
Abstract :
A reduced state estimator is derived for systems with bounded parameters as inputs. Optimal filter gains are derived for minimizing the total covariance of the estimation error due to measurement noise and parameter uncertainty. It is shown that these filter gains for a two-state system with a Gaussian parameter satisfy the Kalata relation in steady state. Equations are also derived for optimally filtering measurements in arbitrary time order. This reduced state estimator offers novelties over a traditional Kalman filter in its application to the class of problems considered. The total error covariance, which is minimized, makes no use of plant noise. Furthermore, the filter is easier to optimize in high dimensional and multiple sensor applications as well as in processing out-of-sequence measurements.
Keywords :
Kalman filters; filtering theory; radar tracking; state estimation; target tracking; Gaussian parameter; Kalata relation; Kalman filter; bounded parameters; estimation error covariance; high dimensional sensor applications; measurement noise; multiple sensor applications; optimal filter gains; out-of-sequence measurements; parameter uncertainty; parametric inputs; reduced state estimator; steady state; two-state system; Equations; Estimation error; Filtering; Filters; Gain measurement; Noise measurement; State estimation; Steady-state; Time measurement; Uncertain systems;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2004.1309996
