Essentials of Constraint Programming
Essentials of Constraint Programming
EMF: Eclipse Modeling Framework 2.0
EMF: Eclipse Modeling Framework 2.0
Eclipse Modeling Project: A Domain-Specific Language (DSL) Toolkit
Eclipse Modeling Project: A Domain-Specific Language (DSL) Toolkit
Raising the level of abstraction in the development of GMF-based graphical model editors
MISE '09 Proceedings of the 2009 ICSE Workshop on Modeling in Software Engineering
Derivation and Refinement of Textual Syntax for Models
ECMDA-FA '09 Proceedings of the 5th European Conference on Model Driven Architecture - Foundations and Applications
Experiences of Developing a Network Modeling Tool Using the Eclipse Environment
ECMDA-FA '09 Proceedings of the 5th European Conference on Model Driven Architecture - Foundations and Applications
Abstracting Complex Languages through Transformation and Composition
MODELS '09 Proceedings of the 12th International Conference on Model Driven Engineering Languages and Systems
On Language-Independent Model Modularisation
Transactions on Aspect-Oriented Software Development VI
An integrated facet-based library for arbitrary software components
ECMFA'10 Proceedings of the 6th European conference on Modelling Foundations and Applications
Reusing pattern solutions in modeling: a generic approach based on a role language
SLE'11 Proceedings of the 4th international conference on Software Language Engineering
Where does model-driven engineering help? Experiences from three industrial cases
Software and Systems Modeling (SoSyM)
DropsBox: the Dresden Open Software Toolbox
Software and Systems Modeling (SoSyM)
Hi-index | 0.00 |
Domain-specific modelling (DSM) environments enable experts in a certain domain to actively participate in model-driven development. Developing DSM environments need to be cost-efficient, since they are only used by a limited group of domain experts. Different model-driven technologies promise to allow this cost-efficient development. [1] presented experiences in developing a DSM environment for telecommunication network modelling. There, challenges were identified that need to be addressed by other new modelling technologies. In this paper, we now present the results of addressing one of theses challenges—abstraction and reuse support—with the Reuseware Composition Framework. We show how we identified the abstraction and reuse features required in the telecommunication DSM environment in a case study and extended the existing environment with these features using Reuseware. We discuss the advantages of using this technology and propose a process for further improving the abstraction and reuse capabilities of the DSM environment in the future.