Supporting adaptive diagrammatic communication. The computing environment of the near future will allow users to access and
interact with digital information using an incredible variety of devices.
Regardless of these changes, humans will still be communicating using
diagrams and sketches. But unlike today where diagrams are static,
lifeless objects reflecting their origin in print media, the computer of
the near future will provide more flexible visual computer interfaces which
support ....Supporting adaptive diagrammatic communication. The computing environment of the near future will allow users to access and
interact with digital information using an incredible variety of devices.
Regardless of these changes, humans will still be communicating using
diagrams and sketches. But unlike today where diagrams are static,
lifeless objects reflecting their origin in print media, the computer of
the near future will provide more flexible visual computer interfaces which
support adaptive layout, user interaction and semantics based retrieval.
Based on geometric constraint solving, this project will provide a
generic computational basis for this radically new view of diagrams.
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Interest-based negotiation: theory and practice. The results of the project will provide theoretically sound technologies that can better support distributed resource and task allocation in complex problem solving settings. The combination of theoretical and practical outcomes from the research will enable these technologies to be applied in decision-making settings beyond those studied directly in the project. The project contributes to Australia's ability to compete in the emerging internation ....Interest-based negotiation: theory and practice. The results of the project will provide theoretically sound technologies that can better support distributed resource and task allocation in complex problem solving settings. The combination of theoretical and practical outcomes from the research will enable these technologies to be applied in decision-making settings beyond those studied directly in the project. The project contributes to Australia's ability to compete in the emerging international market for knowledge-based software applications. The project's key connections and integration with European research will also strengthen research collaboration and training opportunities for Australian based students. Read moreRead less
Constrained numerical optimisation techniques for automatic graph drawing. Network visualisation (graph drawing) is an enabling technology that is valuable to many important Australian interests. This project aims to develop new techniques that are more easily adapted to specific applications than current methods. There are a range of benefits in developing this technology including but not limited to: improved mapping of terrorist networks that can aid early identification of security threats ....Constrained numerical optimisation techniques for automatic graph drawing. Network visualisation (graph drawing) is an enabling technology that is valuable to many important Australian interests. This project aims to develop new techniques that are more easily adapted to specific applications than current methods. There are a range of benefits in developing this technology including but not limited to: improved mapping of terrorist networks that can aid early identification of security threats; improved design and analysis of communication networks, either for the telecommunications industry or for emergency and disaster management scenarios such as bushfires; improved access to biological network databases used in the study of metabolic processes critical to drug development and genetic research.Read moreRead less