Gregory J. Toussaint scite author profile

Compared with a single platform, cooperative autonomous unmanned aerial vehicles (UAVs) offer efficiency and robustness in performing complex tasks. Focusing on ground mobile targets that intermittently emit radio frequency signals, this paper presents a decentralized control architecture for multiple UAVs, equipped only with rudimentary sensors, to search, detect, and locate targets over large areas. The proposed architecture has in its core a decision logic which governs the state of operation for each UAV based on sensor readings and communicated data. To support the findings, extensive simulation results are presented, focusing primarily on two success measures that the UAVs seek to minimize: overall time to search for a group of targets and the final target localization error achieved. The results of the simulations have provided support for hardware flight tests.

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Tracking for nonlinear underactuated surface vessels with generalized forces

Toussaint

Başar

Bullo

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This paper describes how to use backstepping to develop control laws to perform trajectory tracking for a nonlinear, underactuated surface vessel. The research extends earlier backstepping designs for underactuated vessels by explaining how to select outputs when generalized forces act on the vessel. The resulting control law can correct orientation errors to track linear trajectories and can track arcs of circles with a fixed offset. The paper provides detailed derivations along with simulation results to illustrate the approach.

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Cooperative Control of UAVs for Localization of Intermittently Emitting Mobile Targets

Pack

DeLima

Toussaint

et al. 2009

IEEE Trans. Syst., Man, Cybern. B

153

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Localizing RF Targets with Cooperative Unmanned Aerial Vehicles

Toussaint

Lima

Pack

2007

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