| User interface plasticity: model driven engineering to the limit! | | BIBAK | Full-Text | 1-8 | |
| Joëlle Coutaz | |||
| Bridging models and systems at runtime to build adaptive user interfaces | | BIBAK | Full-Text | 9-18 | |
| Marco Blumendorf; Grzegorz Lehmann; Sahin Albayrak | |||
| Software refactoring process for adaptive user-interface composition | | BIBAK | Full-Text | 19-28 | |
| Anthony Savidis; Constantine Stephanidis | |||
| How assessing plasticity design choices can improve UI quality: a case study | | BIBAK | Full-Text | 29-34 | |
| Audrey Serna; Gaëlle Calvary; Dominique L. Scapin | |||
| Using ensembles of decision trees to automate repetitive tasks in web applications | | BIBAK | Full-Text | 35-40 | |
| Zachary Bray; Per Ola Kristensson | |||
| Xplain: an editor for building self-explanatory user interfaces by model-driven engineering | | BIBAK | Full-Text | 41-46 | |
| Alfonso García Frey; Gaëlle Calvary; Sophie Dupuy-Chesa | |||
| Increasing the automation of a toolkit without reducing its abstraction and user-interface flexibility | | BIBAK | Full-Text | 47-56 | |
| Prasun Dewan | |||
| User interface design by sketching: a complexity analysis of widget representations | | BIBAK | Full-Text | 57-66 | |
| Suzanne Kieffer; Adrien Coyette; Jean Vanderdonckt | |||
| An automated routine for menu structure optimization | | BIBAK | Full-Text | 67-76 | |
| Mikhail V. Goubko; Alexander I. Danilenko | |||
| Sketched menu: a tabletop-menu technique for GUI object creation | | BIBAK | Full-Text | 77-86 | |
| Mohammed Belatar; François Coldefy | |||
| Magellan, an evolutionary system to foster user interface design creativity | | BIBAK | Full-Text | 87-92 | |
| Dimitri Masson; Alexandre Demeure; Gaelle Calvary | |||
| MoPeDT: features and evaluation of a user-centred prototyping tool | | BIBAK | Full-Text | 93-102 | |
| Karin Leichtenstern; Elisabeth André | |||
| Digisketch: taming Anoto technology on LCDs | | BIBAK | Full-Text | 103-108 | |
| Ramon Linus Hofer; Andreas Kunz | |||
| WebWOZ: a wizard of oz prototyping framework | | BIBAK | Full-Text | 109-114 | |
| Stephan Schlögl; Gavin Doherty; Nikiforos Karamanis; Saturnino Luz | |||
| Improving modularity and usability of interactive systems with Malai | | BIBAK | Full-Text | 115-124 | |
| Arnaud Blouin; Olivier Beaudoux | |||
| COMM notation for specifying collaborative and multimodal interactive systems | | BIBAK | Full-Text | 125-134 | |
| Frédéric Jourde; Yann Laurillau; Laurence Nigay | |||
| Representations for an iterative resource-based design approach | | BIBAK | Full-Text | 135-144 | |
| Anke Dittmar; Michael D. Harrison | |||
| User interface model discovery: towards a generic approach | | BIBAK | Full-Text | 145-154 | |
| Andy Gimblett; Harold Thimbleby | |||
| Taxonomy proposal for the description of accidents and incidents in the electrical systems operation | | BIBAK | Full-Text | 155-164 | |
| Daniel Scherer; Raffael C. da Costa; Joálison G. Barbosa; Maria de Fátima Q. Vieira | |||
| Beyond modelling: an integrated environment supporting co-execution of tasks and systems models | | BIBAK | Full-Text | 165-174 | |
| Eric Barboni; Jean-François Ladry; David Navarre; Philippe Palanque; Marco Winckler | |||
| Developing usability studies via formal models of UIs | | BIBAK | Full-Text | 175-180 | |
| Judy Bowen; Steve Reeves | |||
| The GUISurfer tool: towards a language independent approach to reverse engineering GUI code | | BIBAK | Full-Text | 181-186 | |
| João Carlos Silva; Carlos C. Silva; Rui D. Gonçalo; João Saraiva; José Creissac Campos | |||
| Feasible database querying using a visual end-user approach | | BIBAK | Full-Text | 187-192 | |
| Clemente Rafael Borges; José Antonio Macías | |||
| Letras: an architecture and framework for ubiquitous pen-and-paper interaction | | BIBAK | Full-Text | 193-198 | |
| Felix Heinrichs; Jürgen Steimle; Daniel Schreiber; Max Mühlhäuser | |||
| Adapting existing applications to support new interaction technologies: technical and usability issues | | BIBAK | Full-Text | 199-204 | |
| Darren Andreychuk; Yaser Ghanam; Frank Maurer | |||
| Semantic awareness through computer vision | | BIBAK | Full-Text | 205-210 | |
| Sami Benzaid; Prasun Dewan | |||
| Model engineering for model-driven engineering | | BIBAK | Full-Text | 211-212 | |
| Axel van Lamsweerde | |||
| Collaboratively maintaining semantic consistency of heterogeneous concepts towards a common concept set | | BIBAK | Full-Text | 213-218 | |
| Jingzhi Guo; Iok Ham Lam; Chun Chan; Guangyi Xiao | |||
| Exploiting web service annotations in model-based user interface development | | BIBAK | Full-Text | 219-224 | |
| Fabio Paternò; Carmen Santoro; Lucio Davide Spano | |||
| Mixed-focus collaboration without compromising individual or group work | | BIBAK | Full-Text | 225-234 | |
| Prasun Dewan; Puneet Agarwal; Gautam Shroff; Rajesh Hegde | |||
| Virtual collaborative environments with distributed multitouch support | | BIBAK | Full-Text | 235-240 | |
| Oscar Ardaiz; Ernesto Arroyo; Valeria Righi; Oriol Galimany; Josep Blat | |||
| Aligning business goals and user goals by engineering hedonic quality | | BIBAK | Full-Text | 241-250 | |
| Kerstin Klöckner; Kirstin Kohler; Daniel Kerkow; Sabine Niebuhr; Claudia Nass | |||
| Activity-centric support for weakly-structured business processes | | BIBAK | Full-Text | 251-260 | |
| Benedikt Schmidt; Todor Stoitsev; Max Mühlhäuser | |||
| Service discovery supported by task models | | BIBAK | Full-Text | 261-266 | |
| Kyriakos Kritikos; Fabio Paternò | |||
| Design pattern TRABING: touchscreen-based input technique for people affected by intention tremor | | BIBAK | Full-Text | 267-272 | |
| Alexander Mertens; Nicole Jochems; Christopher M. Schlick; Daniel Dünnebacke; Jan Henrik Dornberg | |||
| Model-driven GUI & interaction design using emulation | | BIBAK | Full-Text | 273-278 | |
| Annika Hinze; Judy Bowen; Yuting Wang; Robi Malik | |||
| Using the mobile application EDDY for gathering user information in the requirement analysis | | BIBAK | Full-Text | 279-284 | |
| Stephan Hammer; Karin Leichtenstern; Elisabeth André | |||
| History-based device graphical user-interfaces | | BIBAK | Full-Text | 285-290 | |
| Olufisayo Omojokun; Prasun Dewan | |||
| Bridging the gap: empowering use cases with task models | | BIBAK | Full-Text | 291-296 | |
| Daniel Sinnig; Rabeb Mizouni; Ferhat Khendek | |||
| UsabML: formalising the exchange of usability findings | | BIBAK | Full-Text | 297-302 | |
| Johannes Feiner; Keith Andrews; Elmar Krajnc | |||
| Seamless integration of heterogeneous UI components | | BIBAK | Full-Text | 303-308 | |
| Heiko Paulheim; Atila Erdogan | |||
| Development of context-adaptive applications on the basis of runtime user interface models | | BIBAK | Full-Text | 309-314 | |
| Grzegorz Lehmann; Marco Blumendorf; Sahin Albayrak | |||
| A demonstration of the flexibility of widget generation | | BIBAK | Full-Text | 315-320 | |
| Prasun Dewan | |||
| Interactive model driven graphical user interface generation | | BIBAK | Full-Text | 321-324 | |
| David Raneburger | |||
| Understanding the influence of 3D virtual worlds on perceptions of 2D e-commerce websites | | BIBAK | Full-Text | 325-328 | |
| Minh Q. Tran | |||
| Integrating end-user support and negotiations to specify requirements for context-based adaptations in a collaboration environment | | BIBAK | Full-Text | 329-332 | |
| Syed Sajid Hussain | |||
| The fluid software metadata framework (FSM) | | BIBAK | Full-Text | 333-336 | |
| Johannes Feiner | |||
| A model- and pattern-based approach for development of user interfaces of interactive systems | | BIBAK | Full-Text | 337-340 | |
| Jürgen Engel | |||
| Self-explanatory user interfaces by model-driven engineering | | BIBAK | Full-Text | 341-344 | |
| Alfonso García Frey | |||
| The triad-based design of rich user interfaces for internet applications | | BIBAK | Full-Text | 345-348 | |
| Francisco Javier Martínez-Ruiz | |||
| Towards an evolutionary framework for agile requirements elicitation | | BIBAK | Full-Text | 349-352 | |
| Sandra Kelly | |||
| UI generation from task, domain and user models: the DB-USE approach | | BIBAK | Full-Text | 353-356 | |
| Vi Tran | |||
| DOM tree estimation and computation: overview of a new web content adaptation system | | BIBAK | Full-Text | 357-360 | |
| Jérémy Lardon; Christophe Gravier; Jacques Fayolle | |||
| User interface extensible markup language | | BIBAK | Full-Text | 361-362 | |
| David Faure; Jean Vanderdonckt | |||
| Design and engineering of game-like virtual and multimodal environments | | BIBAK | Full-Text | 363-364 | |
| Chris Raymaekers; Karin Coninx; Juan Manuel González-Calleros | |||
| Engineering patterns for multi-touch interfaces | | BIBAK | Full-Text | 365-366 | |
| Kris Luyten; Davy Vanacken; Malte Weiss; Jan Borchers; Shahram Izadi; Daniel Wigdor | |||
| Pattern-driven engineering of interactive computing systems (PEICS) | | BIBAK | Full-Text | 367-368 | |
| Kai Breiner; Marc Seissler; Gerrit Meixner; Peter Forbrig; Ahmed Seffah; Kerstin Klöckner | |||
| Bringing users' conceptual models into design: an introduction to CASSM analysis | | BIBAK | Full-Text | 369-370 | |
| Ann E. Blandford | |||
| Model a discourse and transform it to your user interface | | BIBAK | Full-Text | 371-372 | |
| Hermann Kaindl | |||
| Mastering use cases: capturing functional requirements for interactive applications | | BIBAK | Full-Text | 373-374 | |
| Daniel Sinnig; Homa Javahery | |||