Title :
Optimal-stopping control for airborne collision avoidance and return-to-course flight
Author :
Zapotezny-Anderson, Paul M. ; Ford, Jason J.
Author_Institution :
Australian Res. Centre for Aerosp. Autom. (ARCAA), Queensland Univ. of Technol. (QUT), Brisbane, QLD, Australia
Abstract :
This paper considers an aircraft collision avoidance design problem that also incorporates design of the aircraft´s return-to-course flight. This control design problem is formulated as a non-linear optimal-stopping control problem; a formulation that does not require a prior knowledge of time taken to perform the avoidance and return-to-course manoeuvre. A dynamic programming solution to the avoidance and return-to-course problem is presented, before a Markov chain numerical approximation technique is described. Simulation results are presented that illustrate the proposed collision avoidance and return-to-course flight approach.
Keywords :
Markov processes; aircraft control; approximation theory; autonomous aerial vehicles; collision avoidance; dynamic programming; nonlinear control systems; optimal control; vehicle dynamics; Markov chain numerical approximation technique; airborne collision avoidance; aircraft collision avoidance design problem; dynamic programming; nonlinear optimal-stopping control problem; return-to-course flight design; return-to-course manoeuvre; uninhabited aerial vehicles; Aerospace electronics; Aircraft; Approximation methods; Collision avoidance; Missiles; Optimal control; Safety;
Conference_Titel :
Australian Control Conference (AUCC), 2011
Conference_Location :
Melbourne, VIC
Print_ISBN :
978-1-4244-9245-9
