Title :
Non linear estimation in sonar tracking
Author :
Laneuville, D. ; Cuilliere, O.
Author_Institution :
Matra Syst. & Inf., Velizy-Villacoublay, France
Abstract :
This paper presents an optimal recursive algorithm with a new adapted state representation for the bearings-only tracking problem. We apply nonlinear filtering techniques to derive the optimal filter. State estimation, which consists of initial position and velocity both in polar coordinate is achieved by a space discretization of the optimal filter. To apply this time-consuming approach in realistic situations, this paper presents an adaptative grid computational scheme where the integration step is controlled by the a priori probabilities. We compare this new solution to the maximum a posteriori estimator and perform Monte-Carlo simulations to compare both algorithms performance.
Keywords :
Monte Carlo methods; maximum likelihood estimation; nonlinear filters; sonar tracking; Monte-Carlo simulations; adaptative grid computational scheme; bearings-only tracking problem; maximum a posteriori estimator; nonlinear estimation; nonlinear filtering techniques; optimal recursive algorithm; sonar tracking; space discretization; state representation; time-consuming approach; Azimuth; Kalman filters; Optimized production technology; Sonar; State estimation; Target tracking; Adaptative; Optimal estimation; Sonar Tracking;
Conference_Titel :
Control Conference (ECC), 1997 European
Conference_Location :
Brussels
Print_ISBN :
978-3-9524269-0-6
