Title :
Compound control system design based on hierarchical sliding mode and ADRC techniques for low speed spinning ballistic missile
Author_Institution :
Comput. Sci. & Eng. Coll., Xi´an Technol. Univ., Xi´an, China
Abstract :
Spin is an effective way to penetrate laser´s interception in the first boosting phase. Control couplings, motion couplings and other effects due to spin must be considered in the control system design. Based on the principle of two time-scale separation of missile dynamics, a double-loop design method is applied to the roll channel, its attitude loop and damping loop uses respectively an auto-disturbances-rejection controller (ADRC). For pitch-yaw channel, a hierarchical sliding mode controller is designed to achieve decoupling control, and a nonlinear observer with expanding dimension is introduced into controller to estimate in real time the size of the uncertainties as to weaken the chattering. Numerical simulation results show that this compound controller has strong robustness.
Keywords :
attitude control; ballistics; control system synthesis; missile control; motion control; nonlinear control systems; variable structure systems; velocity control; ADRC technique; attitude loop; auto disturbances rejection controller; compound control system design; control coupling; damping loop; double loop design method; hierarchical sliding mode control; lasers interception; low speed spinning ballistic missile; missile dynamics; motion coupling; nonlinear observer; pitch yaw channel; time scale separation; Couplings; Equations; Mathematical model; Missiles; Sliding mode control; Uncertainty; ADRC; Ballistic Missile; Compound Control; Sliding Mode; Spin;
Conference_Titel :
Control Conference (CCC), 2010 29th Chinese
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-6263-6
