Reference:
T.J.J. van den Boom,
H. de Bruijn,
B. De Schutter, and
L. Özkan,
"The interaction between scheduling and control of semi-cyclic hybrid
systems," Proceedings of the 14th International Workshop on
Discrete Event Systems (WODES 2018), Sorrento Coast, Italy, pp.
212-217, May-June 2018.
Abstract:
In this paper a new iterative approach is proposed for the design of a
combined real-time scheduling and control algorithm that can be
applied to industrial systems that are described by a hybrid model
with a (semi-)cyclic behavior. Traditionally scheduling and control
problems are considered in a sequential way. First the scheduling
problem is solved and subsequently the control problem. This may
result in inconsistent solutions such that the system may not operate
adequately and does not reach the desired operational targets. In our
approach scheduling is done with model predictive control using a
switching max-plus linear model of the discrete event part of the
system. The interface with a reference generator determines whether
the computed reference signal will lead to a feasible response.
Furthermore, it estimates the duration of the operations in the system
based on the actual state, and communicates that with the scheduler.
In an iterative procedure the optimal and feasible schedule can be
computed. In a case study the railway traffic on a single track is
considered, showing that updating the schedule results in feasible
local speed profiles for the trains and less delay in the overall
system in case of a delay.