Title :
A lightweight model predictive controller for repetitive discrete event systems
Author :
Goto, Hiroyuki ; Yoshizumi, Tatsuki
Author_Institution :
Dept. of Manage. & Inf. Syst. Sci., Nagaoka Univ. of Technol., Niigata, Japan
Abstract :
A lightweight model predictive controller for a class of discrete event systems is developed. Our target is FIFO systems, in which the precedence relations are represented by a directed acyclic graph. Using max-plus algebra, a system´s behavior can be described by a set of linear equations referred to as the state space representation. Based on this representation, we focus on the problem of adjusting system parameters and determining optimal control inputs for given reference signals. To determine system parameters, we formulate and solve an optimization problem using a kind of branch-and-bound method. Then, the optimal control inputs are determined. Since this part is often the bottleneck in online control, we propose two methods for the efficient computation thereof.
Keywords :
directed graphs; discrete event systems; optimal control; optimisation; predictive control; state-space methods; tree searching; FIFO system; branch-and-bound method; directed acyclic graph; lightweight model predictive controller; linear equation; max-plus algebra; online control; optimal control; optimization problem; reference signal; repetitive discrete event system; state space representation; Algebra; Algorithm design and analysis; Complexity theory; Equations; Mathematical model; Modeling; Optimization; Model predictive control; control input; directed acyclic graph; max-plus algebra; state space representation;
Conference_Titel :
SICE Annual Conference (SICE), 2011 Proceedings of
Conference_Location :
Tokyo
Print_ISBN :
978-1-4577-0714-8
