Combined Scheduling and Control
Dublin Core
Title
Combined Scheduling and Control
Subject
Combined Scheduling
Description
This paper is about the incremental computation of control sequences for discrete event
systems in uncertain environments where uncontrollable events may occur. Timed Petri nets are used
for this purpose. The aim is to drive the marking of the net from an initial value to a reference one,
in minimal or near-minimal time, by avoiding forbidden markings, deadlocks, and dead branches.
The approach is similar to model predictive control with a finite set of control actions. At each step only
a small area of the reachability graph is explored: this leads to a reasonable computational complexity.
The robustness of the resulting trajectory is also evaluated according to a risk probability. A sufficient
condition is provided to compute robust trajectories
systems in uncertain environments where uncontrollable events may occur. Timed Petri nets are used
for this purpose. The aim is to drive the marking of the net from an initial value to a reference one,
in minimal or near-minimal time, by avoiding forbidden markings, deadlocks, and dead branches.
The approach is similar to model predictive control with a finite set of control actions. At each step only
a small area of the reachability graph is explored: this leads to a reasonable computational complexity.
The robustness of the resulting trajectory is also evaluated according to a risk probability. A sufficient
condition is provided to compute robust trajectories
Creator
John D. Hedengren (Ed.) et al
Source
https://www.mdpi.com/books/pdfview/book/580
Publisher
MDPI - Multidisciplinary Digital Publishing Institute
Date
2018
Contributor
Baihaqi
Rights
Creative Commons
Format
PDF
Language
English
Type
Textbooks
Files
Collection
Citation
John D. Hedengren (Ed.) et al, “Combined Scheduling and Control,” Open Educational Resource (OER) - USK Library, accessed April 24, 2025, http://202.4.186.74:8004/oer/items/show/3115.