Access the full text.
Sign up today, get DeepDyve free for 14 days.
Baha Jabarin, T. Graham (2003)
Architectures for Widget-Level Plasticity
K. Luyten, Tom Laerhoven, K. Coninx, F. Reeth (2002)
Specifying User Interfaces for Runtime Modal Independent Migration
D. Olsen, Sean Jefferies, T. Nielsen, William Moyes, P. Fredrickson (2000)
Cross-modal interaction using XWeb
David Thevenin, J. Coutaz (1999)
Plasticity of User Interfaces: Framework and Research Agenda
Stephen Gilroy, M. Harrison (2004)
Using Interaction Style to Match the Ubiquitous User Interface to the Device-to-Hand
Krzysztof Gajos, Daniel Weld (2004)
SUPPLE: automatically generating user interfaces
P. Gray, S. Draper (1996)
A Unified Concept of Style and its Place in User Interface Design
G. Mori, F. Paternò, C. Santoro (2004)
Design and development of multidevice user interfaces through multiple logical descriptionsIEEE Transactions on Software Engineering, 30
Constantinos Phanouriou (2000)
UIML: A Device-Independent User Interface Markup Language
Gaëlle Calvary, J. Coutaz, David Thevenin (2001)
Supporting Context Changes for Plastic User Interfaces: A Process and a Mechanism
S. Ponnekanti, Brian Lee, A. Fox, P. Hanrahan, T. Winograd (2001)
ICrafter: A Service Framework for Ubiquitous Computing Environments
M. Abrams, Constantinos Phanouriou, Alan Batongbacal, Stephen Williams, J. Shuster (1999)
UIML: An Appliance-Independent XML User Interface LanguageComput. Networks, 31
David Thevenin, J. Coutaz (1999)
Adaptation and Plasticity of User Interfaces
R. Bandelloni, F. Paternò (2004)
Flexible interface migration
A. Puerta, Jacob Eisenstein (2001)
XIML : A Universal Language for User Interfaces
A. Puerta, Jacob Eisenstein (2002)
XIML: a common representation for interaction data
Max Schlee (2004)
Generative Programming of graphical user interfacesProceedings of the working conference on Advanced visual interfaces
Q. Limbourg, J. Vanderdonckt (2004)
Addressing the mapping problem in user interface design with UsiXML
As developers target a more diverse range of devices, a one-size-fits-all approach to interaction design becomes harder to sustain. By utilising the notion of interaction styles, developers can create families of user interfaces that are better matched to the interactive capabilities of devices. Style-Based Mark-up Language (SBML) is a language that separates services from style-specific interaction, and allows devices to choose the style of interface that best suits their capability and operating context. This paper outlines the service architecture and language syntax of SBML, using an online banking example. It also explores alternative single-interaction-style approaches and notions of context.
International Journal of Web Engineering and Technology – Inderscience Publishers
Published: Jan 1, 2008
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.