Controlled steady gliding and approximate trajectory tracking for vehicles subject to aerodynamic forcing

Author

Bhatta, Pradeep ; Leonard, Naomi Ehrich

Author_Institution

Dept. of Mech. & Aerosp. Eng., Princeton Univ., NJ

fYear

2006

fDate

14-16 June 2006

Abstract

In this paper we present a control law that yields exponential stability of steady gliding motions of the conventional take off and landing (CTOL) aircraft model. We interpret the CTOL aircraft model as an interconnected system and prove closed-loop exponential stability by constructing a Lyapunov function. We use the stability of steady gliding motions to propose a methodology for approximately tracking desired trajectories. The stabilization and tracking methods presented here are also applicable to other air and underwater vehicles subject to aerodynamic moments, and lift and drag forces. One of the attractions of tracking based on stable gliding is the very low control effort requirement compared to dynamic inversion based methods. We demonstrate the proposed method with a simulation of the CTOL aircraft model

Keywords

Lyapunov methods; aerodynamics; aircraft; asymptotic stability; closed loop systems; interconnected systems; marine vehicles; position control; vehicle dynamics; Lyapunov function; aerodynamic forcing; aerodynamic moments; approximate trajectory tracking; closed-loop exponential stability; controlled steady gliding motion; conventional take off and landing aircraft model; interconnected system; Aerodynamics; Aerospace control; Aircraft manufacture; Interconnected systems; Lyapunov method; Motion control; Stability; Trajectory; Underwater tracking; Vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference, 2006

Conference_Location

Minneapolis, MN

Print_ISBN

1-4244-0209-3

Electronic_ISBN

1-4244-0209-3

Type

conf

DOI

10.1109/ACC.2006.1657391

Filename

1657391