Thiago Felippe K. Cordeiro scite author profile

In this paper, a nonlinear robust formation flight controller for a swarm of unmanned aerial vehicles (UAVs) is presented. It is based on the virtual leader approach and is capable of achieving and maintaining a formation with time-varying shape. By using a decentralized architecture, the local controller in each UAV uses information only from the UAV itself, its neighbors, and from the virtual leader. Also, a synchronization control objective provides a mechanism to weight between the fleet achieving the desired formation shape, that is, achieving the desired relative position between the UAVs, and each UAV achieving its desired absolute position. The use of a combination of a sliding mode controller and a low pass filter reduces the usual chattering effect, providing a smooth control signal while maintaining robustness. Simulation results show the effectiveness of the proposed decentralized controller.

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Kalman-based attitude estimation for an UAV via an antenna array

Cordeiro

Costa

Liu

et al. 2014

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Thiago Felippe K. Cordeiro

Non linear controller and path planner algorithm for an autonomous variable shape formation flight

Robust and Synchronous Nonlinear Controller for Autonomous Formation Flight of Fixed Wing UASs

Improved Kalman-based attitude estimation framework for UAVs via an antenna array

A Decentralized Low-Chattering Sliding Mode Formation Flight Controller for a Swarm of UAVs

Kalman-based attitude estimation for an UAV via an antenna array

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