Abstract

In this brief, stabilization designs are presented for a planar vertical takeoff and landing (PVTOL) aircraft and an inertia wheel pendulum (IWP). In the design procedure, the IWP and a subsystem of the PVTOL aircraft are transformed into chains of integrators with nonlinear perturbations, and then a saturated control technique is employed. The closed-loop systems are shown to be globally asymptotically stable via simple Lyapunov analysis. With the aid of the saturation technique, the designs require neither backstepping/forwarding techniques nor small gain analysis, and their effectiveness is demonstrated by numerical simulations.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Global finite-time stabilization of a PVTOL aircraft by output feedback
Michael T Frye ... Shihua Li
-
Michael T Frye, et. al.Michael T Frye ... Shihua Li
01 Dec 2009
Robust constrained trajectory tracking control for a PVTOL aircraft subject to external disturbances
Qijia Yao
International journal of systems science | VOL. 52
Qijia YaoQijia Yao
02 Mar 2021
Robust Model Predictive Control of PVTOL Aircraft∗∗This work was supported by Center of Excellence in Complex and Nonlinear Dynamical Systems (CoE-CNDS), established under TEQIP-II, Subcomponent 1.2.1.
Sharmila J Petkar ... Faruk S Kazi
IFAC PapersOnLine | VOL. 49
Sharmila J Petkar, et. al.Sharmila J Petkar ... Faruk S Kazi
01 Jan 2015
The PVTOL aircraft
Isabelle Fantoni ... Rogelio Lozano
-
Isabelle Fantoni, et. al.Isabelle Fantoni ... Rogelio Lozano
01 Jan 2002
View more papers

More From: IEEE transactions on control systems technology : a publication of the IEEE Control Systems Society

Paper Title
Journal
Date
Author
Safe and Human-Like Autonomous Driving: A Predictor–Corrector Potential Game Approach
Mushuang Liu ... Anouck Girard
IEEE transactions on control systems technology : a publication of the IEEE Control Systems Society | VOL. 32
Mushuang Liu, et. al.Mushuang Liu ... Anouck Girard
01 May 2024
A Resetting Observer for Linear Time-Varying Systems With Application to Dynamic Positioning of Marine Surface Vessels
Tobias R. Torben ... Emilie H. T. Wittemann
IEEE transactions on control systems technology : a publication of the IEEE Control Systems Society | VOL. 32
Tobias R. Torben, et. al.Tobias R. Torben ... Emilie H. T. Wittemann
01 May 2024
Stable Locomotion of Biped Robot With Gaits of Sinusoidal Harmonics
Bolin Li ... Jian Huang
IEEE transactions on control systems technology : a publication of the IEEE Control Systems Society | VOL. 32
Bolin Li, et. al.Bolin Li ... Jian Huang
01 May 2024
Predictive Control of Cooperative Robots Sharing Common Workspace
Argtim Tika ... Naim Bajcinca
IEEE transactions on control systems technology : a publication of the IEEE Control Systems Society | VOL. 32
Argtim Tika, et. al.Argtim Tika ... Naim Bajcinca
01 Mar 2024
View more papers