Temporal reasoning based on semi-intervals
Artificial Intelligence
Reasoning about qualitative temporal information
Artificial Intelligence - Special volume on constraint-based reasoning
Negotiation for automated generation of temporal multimedia presentations
MULTIMEDIA '96 Proceedings of the fourth ACM international conference on Multimedia
Maintaining knowledge about temporal intervals
Communications of the ACM
Authoring transformations by direct manipulation for adaptable multimedia presentations
DocEng '01 Proceedings of the 2001 ACM Symposium on Document engineering
Belief Revision
Context-aware design of adaptable multimodal documents
Multimedia Tools and Applications
Dynamic context adaptation in multimedia documents
Proceedings of the 2006 ACM symposium on Applied computing
Multimedia document summarization based on a semantic adaptation framework
SADPI '07 Proceedings of the 2007 international workshop on Semantically aware document processing and indexing
Semantic adaptation of multimedia documents
Multimedia Tools and Applications
Towards flexible graphical communication using adaptive diagrams
ASIAN'04 Proceedings of the 9th Asian Computing Science conference on Advances in Computer Science: dedicated to Jean-Louis Lassez on the Occasion of His 5th Cycle Birthday
Spatio-temporal proximities for multimedia document adaptation
AIMSA'06 Proceedings of the 12th international conference on Artificial Intelligence: methodology, Systems, and Applications
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With the proliferation of heterogeneous devices (desktop computers, personal digital assistants, phones), multimedia documents must be played under various constraints (small screens, low bandwidth). Taking these constraints into account with current document models is impossible. Hence, generic source documents must be transformed into documents compatible with the target contexts. Currently, the design of transformations is left to programmers. We propose here a semantic framework, which accounts for multimedia document adaptation in very general terms. A model of a multimedia document is a potential execution of this document and a context defines a particular class of models. The adaptation should then retain the source document models that belong to the class defined by the context if such models exist. Otherwise, the adaptation should produce a document whose models belong to this class and are "close" to those of the source documents. We focus on the temporal dimension of multimedia documents and show how adaptation can take advantage of temporal reasoning techniques. Several metrics are given for assessing the proximity of models.