The realization of cyber-physical systems (CPS) as networked automation devices proclaims a new level of flexibility, interoperability, and adaptability within automation systems. This paper presents an integrated concept for developing automation applications in a distributed way. Therefore, two existing Model-Driven Engineering approaches are combined; one deals with the design of automation applications according to the SOA paradigm and the other one with automatic code generation for embedded real-time systems. An integration concept is proposed for a seamless linking of the two approaches and first results are presented by means of a case study.
%0 Journal Article
%1 OllingerWehrmeisterEtAl13IFAC
%A Ollinger, Lisa
%A Wehrmeister, Marco Aurelio
%A Pereira, Carlos Eduardo
%A Zuehlke, Detlef
%B Proceedings of the 11th IFAC Workshop on Intelligent Manufacturing Systems (IMS 2013), São Paulo, Brazil
%D 2013
%J IFAC Proceedings Volumes
%K 01624 elsevier paper dfki embedded ai semantic web service device network factory software engineering code generation soa middleware zzz.cps
%N 7
%P 222--227
%R 10.3182/20130522-3-BR-4036.00083
%T An Integrated Concept for the Model-Driven Engineering of Distributed Automation Architectures on Embedded Systems
%V 46
%X The realization of cyber-physical systems (CPS) as networked automation devices proclaims a new level of flexibility, interoperability, and adaptability within automation systems. This paper presents an integrated concept for developing automation applications in a distributed way. Therefore, two existing Model-Driven Engineering approaches are combined; one deals with the design of automation applications according to the SOA paradigm and the other one with automatic code generation for embedded real-time systems. An integration concept is proposed for a seamless linking of the two approaches and first results are presented by means of a case study.
@article{OllingerWehrmeisterEtAl13IFAC,
abstract = {The realization of cyber-physical systems (CPS) as networked automation devices proclaims a new level of flexibility, interoperability, and adaptability within automation systems. This paper presents an integrated concept for developing automation applications in a distributed way. Therefore, two existing Model-Driven Engineering approaches are combined; one deals with the design of automation applications according to the SOA paradigm and the other one with automatic code generation for embedded real-time systems. An integration concept is proposed for a seamless linking of the two approaches and first results are presented by means of a case study.},
added-at = {2016-05-14T14:04:32.000+0200},
author = {Ollinger, Lisa and Wehrmeister, Marco Aurelio and Pereira, Carlos Eduardo and Zuehlke, Detlef},
biburl = {https://www.bibsonomy.org/bibtex/26b459a906c583a9b25e4fe7be9c0ac4d/flint63},
booktitle = {Proceedings of the 11th IFAC Workshop on Intelligent Manufacturing Systems (IMS 2013), S{\~{a}}o Paulo, Brazil},
doi = {10.3182/20130522-3-BR-4036.00083},
file = {ScienceDirect:2013/OllingerWehrmeisterEtAl13IFAC.pdf:PDF},
groups = {public},
interhash = {3d9c4ec15f0ea41c9fec45c7ebbe1325},
intrahash = {6b459a906c583a9b25e4fe7be9c0ac4d},
issn = {2405-8963},
journal = {IFAC Proceedings Volumes},
keywords = {01624 elsevier paper dfki embedded ai semantic web service device network factory software engineering code generation soa middleware zzz.cps},
number = 7,
pages = {222--227},
timestamp = {2017-07-13T18:15:29.000+0200},
title = {An Integrated Concept for the Model-Driven Engineering of Distributed Automation Architectures on Embedded Systems},
username = {flint63},
volume = 46,
year = 2013
}