Title :
Centralized target tracking with propagation delayed measurements
Author :
Mehmetcik, Erdal ; Orguner, Umut
Author_Institution :
Sonar Syst. Dept., Aselsan Inc., Ankara, Turkey
Abstract :
In this paper, we investigate the multisensor target tracking problem in environments where the signal propagation delays between the target and the sensors are not negligible. Based on a previously proposed efficient method to solve the implicit equations imposed by the target motion model and the physics rules governing the signal propagation delays, a particle filter is developed to perform multisensor target tracking while compensating for the propagation delays. As opposed to the existing approach in the literature, a centralized tracking architecture, which brings up significant challenges into the problem, is considered. The performance of the new approach is illustrated on an example scenario where a target with a coordinated-turn motion is to be tracked with two bearing-only sensors.
Keywords :
particle filtering (numerical methods); sensor fusion; target tracking; bearing-only sensors; centralized target tracking; centralized tracking architecture; coordinated-turn motion; implicit equations; multisensor target tracking problem; particle filter; physics rules; propagation delayed measurements; signal propagation delays; target motion model; Atmospheric measurements; Delays; Particle measurements; Propagation delay; Sensors; Target tracking; Vectors; Centralized estimation; multiple sensors; particle filtering; propagation delay; state estimation; target tracking;
Conference_Titel :
Information Fusion (FUSION), 2013 16th International Conference on
Conference_Location :
Istanbul
Print_ISBN :
978-605-86311-1-3
