The visual display of quantitative information
The visual display of quantitative information
Envisioning information
LifeLines: visualizing personal histories
Proceedings of the SIGCHI Conference on Human Factors in Computing Systems
Developing a context-aware electronic tourist guide: some issues and experiences
Proceedings of the SIGCHI conference on Human Factors in Computing Systems
Enriching buyers' experiences: the SmartClient approach
Proceedings of the SIGCHI conference on Human Factors in Computing Systems
Interactive visualisation of a travel itinerary
AVI '00 Proceedings of the working conference on Advanced visual interfaces
An empirical study of textual and graphical travel itinerary visualization using mobile phones
AUIC '03 Proceedings of the Fourth Australasian user interface conference on User interfaces 2003 - Volume 18
Handheld Usability
Compact Visualisation of Multimedia Interaction Records
IV '03 Proceedings of the Seventh International Conference on Information Visualization
Generating mobile device user interfaces for diagram-based modelling tools
AUIC '06 Proceedings of the 7th Australasian User interface conference - Volume 50
Experiences developing architectures for realizing thin-client diagram editing tools
Software—Practice & Experience
Mobile analytics for emergency response and training
Information Visualization - Special issue on visual analytics science and technology
Hi-index | 0.00 |
Conventional travel itineraries list travel related information, such as flights and hotel bookings, in a chronological order of date and time. As such the only observable relationship between different activities listed on a conventional itinerary is that the activities follow one another sequentially in time. Various graphical travel itinerary visualization systems have recently been developed to allow making references between different events on an itinerary easier. These systems rely on large computer displays for visualization of itinerary information during the pre-travel planning and preparation phase, and allow access to such information using mobile phones during the actual trip when access to a computer with large display may not be possible. We have developed a system called PATI, which allows not only access but also modification of personal travel itinerary information using Personal Digital Assistant type devices. This paper describes PATI and introduces techniques used for visualization of complex itinerary information on small displays.