On dynamic output feedback robust MPC for constrained quasi-LPV systems

Abstract

This paper considers the dynamic output feedback robust model predictive control (MPC) of a quasi-linear parameter varying (quasi-LPV) system with bounded noise. In our previous works, for the unknown true state, either its ellipsoidal bounds or its polyhedral bounds were solely applied in the main optimisation problem. The recursive feasibility of the main optimisation problem was guaranteed by a simple refreshment of the ellipsoidal bound, but might be lost by applying the polyhedral bounds. This paper shows how and to what extent the recursive feasibility can be restored when the polyhedral bounds are still utilised. First, we propose a new approach which, at each sampling time, utilises either the ellipsoidal bound or the polyhedral bound in the main optimisation problem, the latter being used if and only if it is contained in the former. Then, we show the sufficient conditions under which the approaches based on polyhedral bounds preserve the property of recursive feasibility. A numerical example is given to illustrate the effectiveness of the controller.

Keywords:

• dynamic output feedback
• model predictive control
• uncertain systems
• quadratic boundedness

Acknowledgements

This work was supported by the National Nature Science Foundation of China under Grant 60934007 and Grant 61174095, and by the Foundation from the State Key Laboratory of Industrial Control Technology under Grant ICT1213.