Title :
A multi-objective sampled-data design approach for robust digital guidance
Author :
Léchevin, N. ; Rabbath, C.A.
Author_Institution :
Defence R&D Canada, Val-Belair, Que.
Abstract :
This paper presents a new approach for the synthesis of robust digital guidance. The resulting guidance laws achieve stable and accurate missile guidance despite parametric uncertainties in the missile flight control system dynamics, prescribed limits on missile acceleration, and digital implementation at possibly slow sampling rates. A robust continuous-time guidance law is first designed using mixed H-2/H-infinity minimization and pole placement such that the effect of noise and parametric uncertainties is attenuated. Second, with a fast-rate discretization of the CT guidance law used as a reference model, a multi-objective model-matching control problem is solved in discrete-time. The proposed synthesis includes consideration of the intersample behavior. Numerical simulations demonstrate the effectiveness of the proposed approach
Keywords :
aerospace control; continuous time systems; discrete time systems; minimisation; missile guidance; pole assignment; robust control; sampled data systems; CT guidance law; H-2/H-infinity minimization; discrete-time system; missile acceleration; missile flight control system; missile guidance; multiobjective model-matching control; multiobjective sampled-data design; noise uncertainty; parametric uncertainty; pole placement; robust continuous-time guidance law; robust digital guidance; Acceleration; Aerospace control; Control system synthesis; H infinity control; Missiles; Noise robustness; Numerical simulation; Sampling methods; State feedback; Uncertainty;
Conference_Titel :
Control Applications, 2005. CCA 2005. Proceedings of 2005 IEEE Conference on
Conference_Location :
Toronto, Ont.
Print_ISBN :
0-7803-9354-6
DOI :
10.1109/CCA.2005.1507317
