Multi-UAVcooperative target tracking with bounded noise for connectivity preservation
Rui ZHOU, Yu FENG, Bin DI, Jiang ZHAO, Yan HU
Multi-UAVcooperative target tracking with bounded noise for connectivity preservation
We investigate cooperative target tracking of multiple unmanned aerial vehicles (UAVs) with a limited communication range. This is an integration of UAV motion control, target state estimation, and network topology control. We first present the communication topology and basic notations for network connectivity, and introduce the distributed Kalman consensus filter. Then, convergence and boundedness of the estimation errors using the filter are analyzed, and potential functions are proposed for communication link maintenance and collision avoidance. By taking stable target tracking into account, a distributed potential function based UAV motion controller is discussed. Since only the estimation of the target state rather than the state itself is available for UAV motion control and UAV motion can also affect the accuracy of state estimation, it is clear that the UAV motion control and target state estimation are coupled. Finally, the stability and convergence properties of the coupled system under bounded noise are analyzed in detail and demonstrated by simulations.
Multi-UAV cooperative target tracking / Network connectivity / Kalman consensus filter / Bounded noise / Connectivity preservation
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