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The Kinematics, Dynamics and Control of a Flying Parallel Robot with Three Quadrotors

Damien Six
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Abdelhamid Chriette
Philippe Martinet

Abstract

This paper deals with a novel flying mechanism. Inspired from parallel manipulators, this flying robot is composed of three quadrotors linked by a rigid articulated architecture composed of three legs and a platform. Associating quadrotor co-manipulation and rigid bodies, this new design offers novel possibilities for aerial robotics and manipulation. Previous work leads to the design of a flying parallel robot with two quadrotors. However, this robot did not allow the full control of the six degrees of freedom of its end-effector. With an additional quadrotor, this study seeks to obtain a full control of the platform position and orientation. To prove this property, the kinematic constraints are verified through screw theory. Then, the dynamic model is established and a decoupling property leads to the design of a specific controller for the platform and legs configurations. ADAMS/SIMULINK co-simulations validate the theoretical developments.
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Dates and versions

hal-01685032 , version 1 (24-06-2019)

Identifiers

  • HAL Id : hal-01685032 , version 1

Cite

Damien Six, Sébastien Briot, Abdelhamid Chriette, Philippe Martinet. The Kinematics, Dynamics and Control of a Flying Parallel Robot with Three Quadrotors. 2018 IEEE International Conference on Robotics and Automation (ICRA 2018), May 2018, Brisbane, Australia. ⟨hal-01685032⟩
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