Automating Co-evolution in Model-Driven Engineering
EDOC '08 Proceedings of the 2008 12th International IEEE Enterprise Distributed Object Computing Conference
An extension of UML for the modeling of WIMP user interfaces
Journal of Visual Languages and Computing
Developing Collaborative Modeling Systems Following a Model-Driven Engineering Approach
OTM '08 Proceedings of the OTM Confederated International Workshops and Posters on On the Move to Meaningful Internet Systems: 2008 Workshops: ADI, AWeSoMe, COMBEK, EI2N, IWSSA, MONET, OnToContent + QSI, ORM, PerSys, RDDS, SEMELS, and SWWS
A model-driven approach to building modern Semantic Web-Based User Interfaces
Advances in Engineering Software
Computer
A survey of model driven engineering tools for user interface design
TAMODIA'07 Proceedings of the 6th international conference on Task models and diagrams for user interface design
Collaborative Software Engineering
Collaborative Software Engineering
Metamodel adaptation and model co-adaptation
ECOOP'07 Proceedings of the 21st European conference on Object-Oriented Programming
Information systems in distributed environments: ISDE 2010
ACM SIGSOFT Software Engineering Notes
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Model Driven Engineering (MDE) aims to help software developers to abstract the system implementations by means of models and meta-models. In Web-based Collaborative Information Systems (WCIS) modelling plays an important role, especially in the user-interface field. In this kind of systems, where groups of users (with different roles) cooperate through distributed user interfaces, and the complexity of interaction between different elements involved in the system (e.g., actors, roles, tasks, interaction rules, etc.) is usually high, MDE could represent a good solution to model evolvable user interfaces. This paper describes a proposal for an interaction meta-model, as a part of a model-evolution methodology for cooperative Graphical User Interfaces (GUI) through Component-Based Development (CBD) approaches. The paper also presents a case study based on an Environmental Management Information Systems (EMIS), where three actors (a politician, a GIS expert, and a technician) cooperate for assessing natural disasters.