Building tightly integrated software development environments: the IPSEN approach
Building tightly integrated software development environments: the IPSEN approach
The Unified Modeling Language user guide
The Unified Modeling Language user guide
Graph transformation based integration tools: application to chemical process engineering
Handbook of graph grammars and computing by graph transformation
Toward Reference Models for Requirements Traceability
IEEE Transactions on Software Engineering
Automatic Model Transformations Using Extended UML Object Diagrams in Modeling Environments
IEEE Transactions on Software Engineering
Transformation: The Missing Link of MDA
ICGT '02 Proceedings of the First International Conference on Graph Transformation
Computer Aided Multi-paradigm Modelling to Process Petri-Nets and Statecharts
ICGT '02 Proceedings of the First International Conference on Graph Transformation
Specification of Graph Translators with Triple Graph Grammars
WG '94 Proceedings of the 20th International Workshop on Graph-Theoretic Concepts in Computer Science
Beyond Stereotyping: Metamodeling Approaches for the UML
HICSS '01 Proceedings of the 34th Annual Hawaii International Conference on System Sciences ( HICSS-34)-Volume 3 - Volume 3
Static Consistency Checking for Distributed Specifications
Proceedings of the 16th IEEE international conference on Automated software engineering
Towards An Integration Of Different Specification Methods By Using The Viewpoint Framework
Journal of Integrated Design & Process Science
A classification of stereotypes for object-oriented modeling languages
UML'99 Proceedings of the 2nd international conference on The unified modeling language: beyond the standard
Integration tools for consistency management between design documents in development processes
Graph transformations and model-driven engineering
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In development processes, multiple tools are used to describe different aspects of the developed product. The resulting information is stored in heterogeneous documents that are technically independent but whose contents are closely related on the semantic level. Thus, if one document is changed, these changes have to be propagated to dependent documents in order to restore mutual consistency. Therefore, there is a need for incremental integration tools, which assist developers in consistency maintenance. Driven by this need, we realized a framework for building incremental integration tools, which is currently being used in the chemical engineering domain. Integration tools are based on models of the related documents and their mutual relationships. These models are defined in the Unified Modelling Language (UML).