Reference:
A. Bemporad,
W.P.M.H. Heemels, and
B. De Schutter,
"On hybrid systems and closed-loop MPC systems," IEEE Transactions
on Automatic Control, vol. 47, no. 5, pp. 863-869, May 2002.
Abstract:
The following five classes of hybrid systems were recently proven to
be equivalent: linear complementarity, extended linear
complementarity, mixed logical dynamical, piecewise affine, and
max-min-plus-scaling systems. Some of the equivalences were obtained
under additional assumptions, such as boundedness of certain system
variables. In this paper, for linear or hybrid plants in closed-loop
with a model predictive control (MPC) controller based on a linear
model, fulfilling linear constraints on input and state variables, and
utilizing a quadratic cost criterion, we provide a simple and direct
proof that the closed-loop system is a subclass of any of the former
five classes of hybrid systems. This result is of extreme importance
as it opens up the use of tools developed for the mentioned hybrid
model classes, such as (robust) stability and safety analysis tools,
to study closed-loop properties of MPC.