Title :
Scan loop control design for a spin-stabilised seeker
Author_Institution :
Agency for Defense Dev., Taejeon, South Korea
fDate :
3/1/1998 12:00:00 AM
Abstract :
A scan loop model for a spin-stabilised seeker is introduced, which includes gyrodynamics with direct- and cross-spring constants for considering the autoerection effect of the gyro. LQG/LTR and H∞ controllers are designed for the seeker scan loop system which has model uncertainty and is subject to external disturbances. The performance of the LQG/LTR controller can be improved by obtaining uniform singular values over all frequencies for the target feedback loop. The H∞ controller is designed in the framework of the standard H∞ optimisation problem with model matching. The proposed H∞ method can reflect not only frequency domain specifications but also time domain ones, such as response characteristics and multi-variable interaction between output channels, differently from the mixed sensitivity problem. It is shown that the designed LQG/LTR and H∞ controllers offer good performance and robustness properties, and both controllers are very effective in the seeker scan loop system
Keywords :
H∞ control; H∞ optimisation; control system synthesis; frequency-domain synthesis; gyroscopes; linear quadratic Gaussian control; missile control; time-domain synthesis; H∞ controllers; LQG/LTR controllers; autoerection effect; cross-spring constants; direct-spring constants; external disturbances; frequency domain specifications; gyrodynamics; model matching; model uncertainty; response characteristics; robustness properties; scan loop control design; spin-stabilised seeker; standard H∞ optimisation problem; time domain specifications;
Journal_Title :
Control Theory and Applications, IEE Proceedings -
DOI :
10.1049/ip-cta:19981796
