@InProceedings{MPM4CPS2024,
author = {Kevin Feichtinger and
Karl Kegel and
Romain Pascual and
Uwe A\ss{}mann and
Bernhard Beckert and
Ralf Reussner},
title = {Towards Formalizing and Relating Different Notions of
Consistency in Cyber-Physical Systems Engineering},
year = {2024},
isbn = {9798400706226},
publisher = {Association for Computing Machinery},
address = {New York, NY, USA},
doi = {10.1145/3652620.3688565},
abstract = {Cyber-Physical Systems (CPSs) are highly complex
systems integrating computational and physical
processes and consist of many interdependent and
composed parts. Engineers from different domains,
e.g., mechanical, electrical, and software engineering,
cooperate to develop and deploy new CPSs. Engineers
often only work on task-specific artifacts and models
to reduce the complexity of the overall CPS. These
models and artifacts form different views on the CPS,
which must be kept consistent to enable development and
system analysis. However, this inter-view consistency
management lacks tool support and remains a tedious
manual task. Hence, this results in late integration
risks and may even lead to failed products during
deployment. To manage consistency between models,
artifacts, and views sufficiently, we need an
understanding of the available notions of consistency
and their properties. We need to identify, classify,
formalize, and relate notions of consistency from
different domains to derive a common definition for a
consistency-aware, view-based development process for
CPSs. This vision paper presents a set of existing
notions of consistency we can build on and outline our
vision towards consistency-aware CPS engineering.},
booktitle = {Proceedings of the ACM/IEEE 27th International
Conference on Model Driven Engineering Languages and
Systems},
pages = {915--919},
numpages = {5},
keywords = {cyber-physical systems engineering,
notions of consistency, vision},
venue = {Linz, Austria},
eventdate = {2024-09-22/2024-09-27},
series = {MODELS Companion '24}
}
Towards Formalizing and Relating Different Notions of Consistency in Cyber-Physical Systems Engineering
| Autor(en): | Kevin Feichtinger, Karl Kegel, Romain Pascual, Uwe Aßmann, Bernhard Beckert und Ralf Reussner |
|---|---|
| In: | Proceedings of the ACM/IEEE 27th International Conference on Model Driven Engineering Languages and Systems |
| Verleger: | Association for Computing Machinery |
| Reihe: | MODELS Companion '24 |
| Jahr: | 2024 |
| Seiten: | 915-919 |
| DOI: | 10.1145/3652620.3688565 |
| Stichworte: | cyber-physical systems engineering notions of consistency vision |
Abstract
Cyber-Physical Systems (CPSs) are highly complex systems integrating computational and physical processes and consist of many interdependent and composed parts. Engineers from different domains, e.g., mechanical, electrical, and software engineering, cooperate to develop and deploy new CPSs. Engineers often only work on task-specific artifacts and models to reduce the complexity of the overall CPS. These models and artifacts form different views on the CPS, which must be kept consistent to enable development and system analysis. However, this inter-view consistency management lacks tool support and remains a tedious manual task. Hence, this results in late integration risks and may even lead to failed products during deployment. To manage consistency between models, artifacts, and views sufficiently, we need an understanding of the available notions of consistency and their properties. We need to identify, classify, formalize, and relate notions of consistency from different domains to derive a common definition for a consistency-aware, view-based development process for CPSs. This vision paper presents a set of existing notions of consistency we can build on and outline our vision towards consistency-aware CPS engineering.