MPC for tracking target sets

FERRAMOSCA, ANTONIO; LIMÓN, DANIEL; GONZÁLEZ, ALEJANDRO HERNÁN; ODLOAK, DARCI; CAMCHO, EDUARDO FERNÁNDEZ

Shanghai, China

Congreso; 48th IEEE Conference on Decision and Control (CDC 09); 2009

This paper deals with the problem of Trucking target sets using a model predictive control (MPC) law. Some MPC applications require a control strategy in which some system outputs are controlled within specified ranges or zones(zone control), while some others variables - possibly including input variables - are steered to fixed target or set-point. In real applications, this problem is often overcome by including and excluding an appropriate penalization for the output errors in the control cost function. In this way, throughout the continuous operation of the process, the control system keeps switching from one controller to another, and even if a stabilizing control law is developed for each of the control configurations, switching among stable controllers not necessarily produces a stable closed loop system. From a theoretical point of view, the control objective of this kind of problem can be seen as a target set (in the output space) instead of a target point, since inside the zones there are no preferences between one point and another. In this work, a stable MPC formulation with several practical properties is developed for this scenario. The concept of distance from a point to a set is exploited to propose an additional cost term, which ensures both, recursive feasibility and local optimality. The performance of the proposed strategy is illustrated by simulation of a subsystem of an industrial FCC system and a quadruple tank process.