A Model-Based Interface Development Environment
IEEE Software
Splitting rules for graceful degradation of user interfaces
Proceedings of the 11th international conference on Intelligent user interfaces
Feature-based survey of model transformation approaches
IBM Systems Journal - Model-driven software development
International Journal of Web Engineering and Technology
A multi-agent system architecture for the adaptation of user interfaces
CEEMAS'05 Proceedings of the 4th international Central and Eastern European conference on Multi-Agent Systems and Applications
USIXML: a language supporting multi-path development of user interfaces
EHCI-DSVIS'04 Proceedings of the 2004 international conference on Engineering Human Computer Interaction and Interactive Systems
Solving the mapping problem in user interface design by seamless integration in IDEALXML
DSVIS'05 Proceedings of the 12th international conference on Interactive Systems: design, specification, and verification
An efficient model-based methodology for developing device-independent mobile applications
Journal of Systems Architecture: the EUROMICRO Journal
Proceedings of the 5th ACM SIGCHI symposium on Engineering interactive computing systems
Aspect-driven, data-reflective and context-aware user interfaces design
ACM SIGAPP Applied Computing Review
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The specification of model adaptation and generation rules is a topic of great interest for the user interface development community, since there are more and more approaches supporting the model-based approach. The ubiquitousness in interaction and the different user profiles are not the only challenges when designing interactive systems. Furthermore, the context of use evolves over time. In this situation, there is a strong need to provide a set of adaptation rules to make the user interface evolve according to the context of use evolution. This paper contributes a metamodel for the definition of adaptation rules in a systematic approach, pursuing engineer adaptation. Moreover, a tool called T:XML is presented that supports the specification of adaptation rules using a visual notation that greatly simplifies the process of designing adaptation for model-based user interface environments.