Nonlinear MPC for Full-Pose Manipulation of a Cable-Suspended Load using Multiple UAVs

Sihao Sun; Antonio Franchi

doi:10.48550/arXiv.2301.08545

Nonlinear MPC for Full-Pose Manipulation of a Cable-Suspended Load using Multiple UAVs

Sihao Sun, Antonio Franchi

Research output: Working paper › Preprint › Academic

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Abstract

In this work, we propose a centralized control method based on nonlinear model predictive control to let multiple UAVs manipulate the full pose of an object via cables. At the best of the authors knowledge this is the first method that takes into account the full nonlinear model of the load-UAV system, and ensures all the feasibility constraints concerning the UAV maximumum and minimum thrusts, the collision avoidance between the UAVs, cables and load, and the tautness and maximum tension of the cables. By taking into account the above factors, the proposed control algorithm can fully exploit the performance of UAVs and facilitate the speed of operation. Simulations are conducted to validate the algorithm to achieve fast and safe manipulation of the pose of a rigid-body payload using multiple UAVs. We demonstrate that the computational time of the proposed method is sufficiently small (

Original language	English
Publisher	ArXiv.org
DOIs	https://doi.org/10.48550/arXiv.2301.08545
Publication status	Published - 20 Jan 2023

Keywords

cs.RO

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10.48550/arXiv.2301.08545

2301.08545v4Final published version, 1.67 MB

1 Conference contribution

Nonlinear MPC for Full-Pose Manipulation of a Cable-Suspended Load Using Multiple UAVs
Sun, S. & Franchi, A., 26 Jun 2023, 2023 International Conference on Unmanned Aircraft Systems (ICUAS). IEEE, p. 969-975 7 p. 10156031
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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title = "Nonlinear MPC for Full-Pose Manipulation of a Cable-Suspended Load using Multiple UAVs",

abstract = " In this work, we propose a centralized control method based on nonlinear model predictive control to let multiple UAVs manipulate the full pose of an object via cables. At the best of the authors knowledge this is the first method that takes into account the full nonlinear model of the load-UAV system, and ensures all the feasibility constraints concerning the UAV maximumum and minimum thrusts, the collision avoidance between the UAVs, cables and load, and the tautness and maximum tension of the cables. By taking into account the above factors, the proposed control algorithm can fully exploit the performance of UAVs and facilitate the speed of operation. Simulations are conducted to validate the algorithm to achieve fast and safe manipulation of the pose of a rigid-body payload using multiple UAVs. We demonstrate that the computational time of the proposed method is sufficiently small (",

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AB - In this work, we propose a centralized control method based on nonlinear model predictive control to let multiple UAVs manipulate the full pose of an object via cables. At the best of the authors knowledge this is the first method that takes into account the full nonlinear model of the load-UAV system, and ensures all the feasibility constraints concerning the UAV maximumum and minimum thrusts, the collision avoidance between the UAVs, cables and load, and the tautness and maximum tension of the cables. By taking into account the above factors, the proposed control algorithm can fully exploit the performance of UAVs and facilitate the speed of operation. Simulations are conducted to validate the algorithm to achieve fast and safe manipulation of the pose of a rigid-body payload using multiple UAVs. We demonstrate that the computational time of the proposed method is sufficiently small (

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PB - ArXiv.org

ER -

Nonlinear MPC for Full-Pose Manipulation of a Cable-Suspended Load using Multiple UAVs

Abstract

Keywords

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Nonlinear MPC for Full-Pose Manipulation of a Cable-Suspended Load Using Multiple UAVs

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