@article{ALLGOWER2019147,
title = "Position paper on the challenges posed by modern applications to cyber-physical systems theory",
journal = "Nonlinear Analysis: Hybrid Systems",
volume = "34",
pages = "147 - 165",
year = "2019",
issn = "1751-570X",
doi = "https://doi.org/10.1016/j.nahs.2019.05.007",
url = "http://www.sciencedirect.com/science/article/pii/S1751570X19300603",
author = "Frank Allgöwer and João {Borges de Sousa} and James Kapinski and Pieter Mosterman and Jens Oehlerking and Patrick Panciatici and Maria Prandini and Akshay Rajhans and Paulo Tabuada and Philipp Wenzelburger",
keywords = "cyber–physical systems theory",
abstract = "Cyber-physical systems theory offers a powerful framework for modeling, analyzing, and designing real engineering systems integrating communication, control, and computation functionalities (the cyber part) within a natural and/or man-made system governed by the laws of physics (the physical part). New methodological developments in cyber-physical systems theory are required by traditional application domains such as manufacturing, transportation, and energy systems, which are currently experiencing significant and – to some extent – revolutionary changes to address the needs of our modern society. The goal of this position paper is to provide the cyber-physical systems community, and especially young researchers, a clear view on what are research directions worth pursuing motivated by the challenges posed by modern applications."
}