Title :
Coupled linear parameter varying and flatness-based approach for space re-entry vehicles guidance
Author :
Zerar, M. ; Cazaurang, F. ; Zolghadri, Ali
Author_Institution :
CreSTIC-URCA Lab., Reims Univ., Reims, France
fDate :
8/1/2009 12:00:00 AM
Abstract :
An linear parameter varying guidance method for the hypersonic phase of a space re-entry vehicle is presented. The suggested guidance scheme, relying on flatness approach, is applied to the non-linear model of the European Atmospheric Re-entry Demonstrator. It is shown that the overall guidance scheme achieves robust stability and performance, even in the presence of entry point kinematics dispersions. The design problem is formulated and solved using a finite set of linear matrix inequalities. Finally, Monte Carlo simulation results are presented to demonstrate the effectiveness of the suggested approach.
Keywords :
Monte Carlo methods; linear matrix inequalities; nonlinear control systems; path planning; robust control; space vehicles; vehicle dynamics; European Atmospheric Re-entry Demonstrator; Monte Carlo simulation; entry point kinematics dispersion; flatness approach; linear matrix inequalities; linear parameter varying guidance; nonlinear model; robust stability; space reentry vehicle guidance;
Journal_Title :
Control Theory & Applications, IET
DOI :
10.1049/iet-cta.2008.0057
