Title :
Tracking connected objects using interacting shape models
Author :
Zea, Antonio ; Faion, Florian ; Hanebeck, Uwe D.
Author_Institution :
Intell. Sensor-Actuator-Syst. Lab. (ISAS), Karlsruhe Inst. of Technol. (KIT), Karlsruhe, Germany
Abstract :
As sensor resolution increases, estimators tracking extended objects benefit from being able to closely model the shape of the target. However, as more shape details are incorporated, this usually leads to increasingly complex estimators. A more useful approach is to describe these shapes as a combination of simpler shapes connected to each other. In this paper, we propose a modular approach to estimate these combined targets in function of their simpler components. This allows the characteristics of each component to be encapsulated, and permits the combination of multiple filtering techniques as required by each component shape. This approach can be applied to track combined objects in a large variety of environments, such as excavators, robotic arms, wagon trains, and many others.
Keywords :
filtering theory; object tracking; connected object tracking; extended object tracking; filtering techniques; interacting shape models; modular approach; sensor resolution; Mathematical model; Noise; Noise measurement; Random variables; Shape; Shape measurement; Switches; Extended object tracking; connected shapes; shape models; switching models;
Conference_Titel :
Information Fusion (FUSION), 2014 17th International Conference on
Conference_Location :
Salamanca
