Understanding Z: a specification language and its formal semantics
Understanding Z: a specification language and its formal semantics
Introduction to the ISO specification language LOTOS
Computer Networks and ISDN Systems - Special Issue: Protocol Specification and Testing
Intelligent multi-media interface technology
Intelligent user interfaces
User and discourse models for multimodal communication
Intelligent user interfaces
AVI '94 Proceedings of the workshop on Advanced visual interfaces
Fundamentals of Algebraic Specification I
Fundamentals of Algebraic Specification I
The MSM Framework: A Design Space for Multi-Sensori-Motor Systems
EWHCI '93 Selected papers from the Third International Conference on Human-Computer Interaction
An Action Based Framework for Verifying Logical and Behavioural Properties of Concurrent Systems
CAV '91 Proceedings of the 3rd International Workshop on Computer Aided Verification
“Put-that-there”: Voice and gesture at the graphics interface
SIGGRAPH '80 Proceedings of the 7th annual conference on Computer graphics and interactive techniques
A syndetic approach to referring phenomena in multimodal interaction
ReferringPhenomena '97 Referring Phenomena in a Multimedia Context and their Computational Treatment
| Hi-index | 0.00 |
Multiple input devices are increasingly used in user interfaces to make human-computer communication more efficient and effective. Interface designers have not only to decide on which input modes should be supported, but also how to fuse them into a single representation format that can be processed by the underlying application system. Drawing appropriate decisions requires, however, a sufficient understanding of the properties of fusion itself. While others have informally characterized input fusion as a transformation between information types, the purpose of the paper is to explore fusion by means of formal process modelling. That is, fusion processes are defined in a formal framework which supports proof of the existence of necessary properties following directly from the process definitions. The presented approach can be applied to analyse and compare fusion processes in existing systems, as well as an aid for interface designers, who have to verify the behaviour of their systems.