Quadrotor Energy-Based Control Laws: a Unit-Quaternion Approach

Quadrotor Energy-Based Control Laws: a Unit-Quaternion Approach

This article presents the designs, simulations and real-time experimental results of two energy-based control strategies to stabilize an Unmanned Aerial Vehicles (UAV) using a quaternion representation of the attitude. The mathematical model is based on Euler-Lagrange formulation using a logarithmic...

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Veröffentlicht in:Journal of intelligent & robotic systems 2017-12, Vol.88 (2-4), p.347-377
Hauptverfasser: Guerrero-Sánchez, M. E., Abaunza, H., Castillo, P., Lozano, R., García-Beltrán, C. D.
Format: Artikel
Sprache:eng
Schlagworte:
Artificial Intelligence
Automatic Control Engineering
Computer Science
Computer simulation
Control
Control theory
Electrical Engineering
Energy consumption
Engineering
Liapunov functions
Mechanical Engineering
Mechatronics
Quaternions
Robotics
Unmanned aerial vehicles
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Beschreibung
Zusammenfassung:This article presents the designs, simulations and real-time experimental results of two energy-based control strategies to stabilize an Unmanned Aerial Vehicles (UAV) using a quaternion representation of the attitude. The mathematical model is based on Euler-Lagrange formulation using a logarithmic mapping in the quaternion space. The proposed solutions introduce a new approach: a quaternion-energy-based control, which use an energy-based expression defined as a Lyapunov function. The control laws are described with unit quaternions and their axis-angle representation. The proposed algorithms allow the stabilization of the quadrotor in all its states. The strategies ensure the stability of the closed loop system. Simulation results and experimental validations are developed to verify the effectiveness of the proposed controllers.
ISSN:0921-0296
1573-0409
DOI:10.1007/s10846-017-0528-3