A General Control Architecture for Visual Servoing and Physical Interaction Tasks for Fully-actuated Aerial Vehicles
Gianluca Corsini, Martin Jacquet, Antonio Enrique Jimenez-Cano, Amr Afifi, Daniel Sidobre, Antonio Franchi
- 发表年份
- 2021
- 引用次数
- 4
摘要
In this paper, we present a general control architecture that allows fully-actuated aerial robots to autonomously accomplish tasks that require both perception and physical interaction with the external environment. We integrate the novel Flying End-Effector paradigm and a Hybrid Visual Ser-voing (HVS) scheme to design a general control architecture for fully-actuated aerial robots. Thanks to the proposed solution, a fully-actuated aerial robot can autonomously accomplish tasks that require both perception and physical interaction without resorting to any external force/torque sensor. The control architecture is entirely described, features a wrench observer and an admittance filter, and is subsequently validated on real experiments. The code for the proposed control architecture is provided open-source.
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