Abstract
The paper is devoted to the problem of the decentralized control of unmanned aerial vehicle (UAV) formation in the case of parametric uncertainty. A new version of the feedback linearization approach is proposed and used for a point mass UAV model transformation. As result, a linear model is obtained containing an unknown value of the UAV mass. Employing the speed-gradient design method and the implicit reference model concept, a combined adaptive control law is proposed for a single UAV, including the UAV’s mass estimation and adaptive tuning of the controller parameters. The obtained new algorithms are then used to address the problem of consensus-based decentralized control of the UAV formation. Rigorous stability conditions for control and identification are derived, and simulation results are presented to demonstrate the quality of the closed-loop control system for various conditions.
Funder
Ministry of Science and Higher Education of the Russian Federation
Subject
Electrical and Electronic Engineering,Computer Networks and Communications,Hardware and Architecture,Signal Processing,Control and Systems Engineering
Reference79 articles.
1. Improved chimp optimization algorithm for three-dimensional path planning problem;Du;Multimed. Tools Appl.,2022
2. Cluster selection for load balancing in flying ad hoc networks using an optimal low-energy adaptive clustering hierarchy based on optimization approach;Sefati;Aircr. Eng. Aerosp. Technol.,2022
3. Hierarchical task-based formation control and collision avoidance of UAVs in finite time;Trujillo;Eur. J. Control,2021
4. Luo, L., Wang, X., Ma, J., and Ong, Y. (2021). GrpAvoid: Multigroup Collision-Avoidance Control and Optimization for UAV Swarm. IEEE Trans. Cybern.
5. Multi-UAV cooperative target tracking via consensus-based guidance vector fields and fuzzy MRAC;Muslimov;Aircr. Eng. Aerosp. Technol.,2021
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