Title :
Autopilot design for modern missiles
Author :
Bradshaw, A. ; Counsell, J.M.
Author_Institution :
Lancaster Univ., UK
Abstract :
Concerns the finding of a design method for general cases of missile autopilot design, where yaw and roll control could not be treated as separate SISO systems. This posed the problem of not only finding a linear MIMO design which would be robust but would also be able to compensate for actuator rate and deflection limits safely. Counsell´s methodology (1991) for wingless missiles is extended to provide faster and tighter noninteractive response. Furthermore, a criterion for safe control in the presence of gross actuator nonlinearities is described. This criterion is used to determine the maximum yaw rate which the missile can safely achieve. This extended MIMO design allows safe and optimum performance to be achieved with near complete decoupling of roll and yaw manoeuvres
Keywords :
aerospace computer control; compensation; control system synthesis; missiles; multivariable control systems; stability; autopilot design; compensation; gross actuator nonlinearities; missile autopilot design; noninteractive response; robust MIMO control design; roll/yaw decoupling; wingless missiles;
Conference_Titel :
Control 1991. Control '91., International Conference on
Conference_Location :
Edinburgh
Print_ISBN :
0-85296-509-5
