Towards flexible, incremental, and paradigm-agnostic consistency checking in multi-level modeling environments (bibtex)
by Andreas Demuth, Markus Riedl-Ehrenleitner, Alexander Egyed
Abstract:
Multi-level modeling has become a popular paradigm as it allows for a natural and easy-to-understand representation of various real-word hierarchies. To date, several approaches have been proposed on how multi-level models should be represented and constructed – how- ever, their continuous evolution and consistency has received consider- ably less attention. Consistency checking is critical to efficient and effec- tive modeling—especially to understand the impact of model changes. Multi-level modeling adds another dimension because it allows for both model and metamodel changes over multiple levels. This paper discusses the key challenges for consistency checking in multi-level modeling en- vironments and outlines an incremental and highly flexible approach for addressing these challenges effectively without being limited to a spe- cific modeling paradigm. A prototype implementation of the approach has been developed; preliminary evaluation results suggest that the ap- proach scales and provides instant consistency information during multi- level modeling.
Reference:
Towards flexible, incremental, and paradigm-agnostic consistency checking in multi-level modeling environments (Andreas Demuth, Markus Riedl-Ehrenleitner, Alexander Egyed), (Colin Atkinson, Georg Grossmann, Thomas Kuehne, Juan de Lara, eds.), CEUR-WS.org, volume 1286, 2014.
Bibtex Entry:
@Workshop{DBLP:conf/models/DemuthRE14,
  author    = {Andreas Demuth and Markus Riedl-Ehrenleitner and Alexander Egyed},
  title     = {Towards flexible, incremental, and paradigm-agnostic consistency checking in multi-level modeling environments},
  booktitle = {Proceedings of the Workshop on Multi-Level Modelling co-located with {ACM/IEEE} 17th International Conference on Model Driven Engineering Languages {\&} Systems (MoDELS 2014), Valencia, Spain, September 28, 2014.},
  year      = {2014},
  editor    = {Colin Atkinson and Georg Grossmann and Thomas Kuehne and Juan de Lara},
  volume    = {1286},
  series    = {(CEUR) Workshop Proceedings},
  pages     = {73--82},
  publisher = {CEUR-WS.org},
  abstract  = {Multi-level modeling has become a popular paradigm as it allows for
	a natural and easy-to-understand representation of various real-word
	hierarchies. To date, several approaches have been proposed on how
	multi-level models should be represented and constructed – how- ever,
	their continuous evolution and consistency has received consider-
	ably less attention. Consistency checking is critical to efficient
	and effec- tive modeling—especially to understand the impact of model
	changes. Multi-level modeling adds another dimension because it allows
	for both model and metamodel changes over multiple levels. This paper
	discusses the key challenges for consistency checking in multi-level
	modeling en- vironments and outlines an incremental and highly flexible
	approach for addressing these challenges effectively without being
	limited to a spe- cific modeling paradigm. A prototype implementation
	of the approach has been developed; preliminary evaluation results
	suggest that the ap- proach scales and provides instant consistency
	information during multi- level modeling.},
  bibsource = {dblp computer science bibliography, https://dblp.org},
  biburl    = {https://dblp.org/rec/bib/conf/models/DemuthRE14},
  crossref  = {DBLP:conf/models/2014multi},
  file      = {:Workshops\\MULTI 2014 - Towards Flexible Consistency Checking in Multi-level Modeling Environments\\Towards Flexible Consistency Checking in Multi-level Modeling Environments-preprint.pdf:PDF},
  keywords  = {FWF P25289, FWF P25513, ACCM},
  timestamp = {Sun, 17 Sep 2017 15:44:42 +0200},
  url       = {http://ceur-ws.org/Vol-1286/p8.pdf},
}
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