Modeling and Control of an Interactive Tilt-rotor MAV

Abstract : The main goal of this paper is to model and control a tilt-rotor aerial robot for interactive operations via a 1DOF robotic manipulator. The modeling is derived by means of the Euler-Lagrange formulation, providing couplings between the robotic manipulator and the rotorcraft. The aerial robot is fully actuated and features thrust vector control, having a more flexible aerial profile. In terms of control, the Immersion and Invariance (I&I) control technique is applied in order to achieve the control objective (trajectory tracking). Likewise, the rotorcraft a mathematical model is extended to include a lumped disturbance encompassing parametric and external disturbances. For this reason, a Nonlinear Disturbance Observer (NDO) is designed to estimate and reject the disturbance adverse effects. Finally, preliminary simulation results were conducted to evaluate and validate the control strategy and the NDO for an interactive tilt-rotor micro aerial vehicle (MAV).
Type de document :
Communication dans un congrès
RED-UAS 2017 - 4th International Workshop on Research, Education and Development on Unmanned Aerial Systems, Oct 2017, Linkoping, Sweden. IEEE, Research, Education and Development of Unmanned Aerial Systems (RED-UAS), 2017 Workshop on, pp.270-275, 〈http://www.reduas2017.org/〉. 〈10.1109/RED-UAS.2017.8101678〉
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https://hal-centralesupelec.archives-ouvertes.fr/hal-01657896
Contributeur : Islam Boussaada <>
Soumis le : jeudi 7 décembre 2017 - 11:14:36
Dernière modification le : jeudi 5 avril 2018 - 12:30:14

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David Nieto Hernandez, Juan Antonio Escareno, Fernando Mendes-Barrios, Islam Boussaada, Diego Langarica Córdoba. Modeling and Control of an Interactive Tilt-rotor MAV. RED-UAS 2017 - 4th International Workshop on Research, Education and Development on Unmanned Aerial Systems, Oct 2017, Linkoping, Sweden. IEEE, Research, Education and Development of Unmanned Aerial Systems (RED-UAS), 2017 Workshop on, pp.270-275, 〈http://www.reduas2017.org/〉. 〈10.1109/RED-UAS.2017.8101678〉. 〈hal-01657896〉

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