Plans and situated actions: the problem of human-machine communication
Plans and situated actions: the problem of human-machine communication
Context and consciousness: activity theory and human-computer interaction
Context and consciousness: activity theory and human-computer interaction
Collaborative plans for complex group action
Artificial Intelligence
Developing a context-aware electronic tourist guide: some issues and experiences
Proceedings of the SIGCHI conference on Human Factors in Computing Systems
Charting past, present, and future research in ubiquitous computing
ACM Transactions on Computer-Human Interaction (TOCHI) - Special issue on human-computer interaction in the new millennium, Part 1
The Challenge of Mobile Devices for Human Computer Interaction
Personal and Ubiquitous Computing
Context as a dynamic construct
Human-Computer Interaction
Context-Aware adaptation in a mobile tour guide
CONTEXT'05 Proceedings of the 5th international conference on Modeling and Using Context
GeoCollaborative crisis management: designing technologies to meet real-world needs
dg.o '06 Proceedings of the 2006 international conference on Digital government research
Information visualization on mobile environments
Proceedings of the 12th international conference on Human computer interaction with mobile devices and services
Hi-index | 0.00 |
Human geospatial activities often involves the use of geographic information in mobile environment where the context of technology use is dynamic, complex, and unstable, creating unique challenges in designing effective mobile mapping applications. Enhancing the context awareness of the computing device can improve the usability of mobile map applications, but the potentially large number of contexts (physical context, computing context, human factors, and time) are not easily managed without a workable organizing structure. This paper proposes an activity-oriented context model that establish late (run-time) binding of contexts to the ongoning avtivity according to how they contribute to the success of the activity. Using this context model, adaptation of mobile map display to the changes of other contexts is based on the knowledge of ongoing task (within an activity) rather anticipated tasks. We discuss advantages of such an approach over traditional template-based model of context models in mobile computing applications.