This paper proposes a novel min-max control scheme for aircraft engines, with the aim of transferring a set of regulated outputs between two 1994 toyota camry green set-points, while ensuring a set of auxiliary outputs remain within prescribed constraints.In view of this, an optimal augmented monotonic tracking controller (OAMTC) is proposed, by considering a linear plant with input integration, to enhance the ability of the control system to reject uncertainty in system parameters and ensure no crossing limits.The key idea is to use the eigenvalue and eigenvector placement method and genetic algorithms to shape the output responses.The approach is validated by numerical simulation.
The results show that the designed OAMTC controller can achieve a satisfactory dynamic babyliss berry crush 230 and steady performance and keep the auxiliary outputs within constraints in the transient regime.