We develop a localization method for a single-UAV/multi-UGV heterogeneous system of robots. Considering the natural supervisory role of the UAV and the challenging (but realistic) assumption that the UAV-to-UGV measurements do not include the identities of the UGVs, we have adopted the PHD filter as a multi-target tracking technique. However, the standard version of this filter does not take into account odometric information coming from the targets, nor does it solve the problem of estimating their identities. Hence, we design ID-PHD, a modification of the PHD filter that is able to reconstruct the identities of the targets by incorporating odometric data. The proposed localization method has been successfully validated through experiments. Some preliminary results of a localization-based control scheme for the multi-robot system are also presented. © 2013 IEEE.
Relative localization and identification in a heterogeneous multi-robot system / Stegagno, Paolo; Cognetti, Marco; Rosa, Lorenzo; Peliti, Pietro; Oriolo, Giuseppe. - (2013), pp. 1857-1864. (Intervento presentato al convegno 2013 IEEE International Conference on Robotics and Automation, ICRA 2013 tenutosi a Karlsruhe nel 6 May 2013 through 10 May 2013) [10.1109/icra.2013.6630822].
Relative localization and identification in a heterogeneous multi-robot system
STEGAGNO, PAOLO;COGNETTI, MARCO;ROSA, LORENZO;PELITI, PIETRO;ORIOLO, Giuseppe
2013
Abstract
We develop a localization method for a single-UAV/multi-UGV heterogeneous system of robots. Considering the natural supervisory role of the UAV and the challenging (but realistic) assumption that the UAV-to-UGV measurements do not include the identities of the UGVs, we have adopted the PHD filter as a multi-target tracking technique. However, the standard version of this filter does not take into account odometric information coming from the targets, nor does it solve the problem of estimating their identities. Hence, we design ID-PHD, a modification of the PHD filter that is able to reconstruct the identities of the targets by incorporating odometric data. The proposed localization method has been successfully validated through experiments. Some preliminary results of a localization-based control scheme for the multi-robot system are also presented. © 2013 IEEE.| File | Dimensione | Formato | |
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