Abstract
Information and computer technologies provide the spur to burgeoning man-made, highly automated systems.[...]
Highlights
Deadlock analysis, scheduling, resource management, performance evaluation, system identification, fault diagnosis, and performance evaluation, as well as pertinent problems of discrete event systems (DES), this special issue aims to make a timely collection of recent advances in the area
There were 77 manuscripts submitted to this special issue, and 19 papers were accepted for publication
The first paper [7], authored by Yao and Li, investigates the input–output finite time stabilization of time-varying impulsive positive hybrid systems based on finite state machines through the mode-dependent average dwell time technique
Summary
It is of paramount significance to develop novel formal frameworks, analysis techniques, design tools, testing methods, and systematic control and optimization procedures for these kinds of man-made, highly complex systems. The third paper [9], authored by Kucharska, proposes a heuristic decision-making approach for an NP-hard scheduling problem based on an algebraic-logical meta-model. The fourth paper [10], authored by Choi, Seo, and Kim, deals with discrete event system simulation, aiming to improve simulation efficiency by using a multi-fidelity modeling framework, while keeping simulation accuracy loss minimized.
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