Navigation techniques for small-screen devices: An evaluation on maps and web pages

Baudisch, 2003, Halo: a technique for visualizing off-screenlocations, 481 Baudisch, 2002, Keeping things in context: a comparative evaluation of focus plus context screens, overviews, and zooming, 259 Bederson, 1994, Pad++: a Zooming graphical interface for exploring alternate interface physics, 17 Bederson, 2004, DateLens: a Fisheye calendar interface for PDAs, ACM Transactions on Computer–Human Interaction, 11, 90, 10.1145/972648.972652 Björk, 1999, WEST: a web browser for small terminals, 187 Burigat, 2006, Visualizing locations of off-screen objects on mobile devices: a comparative evaluation of three approaches, 239 Burigat, S., Chittaro, L., Ieronutti, L., 2008. Exploring mobile browsing through interactive visualizations of user behavior. IEEE Computer Graphics and Applications, to appear. Buring, 2006, Usability of overview-supported zooming on small screens with regard to individual differences in spatial ability, 233 Buring, 2006, User interaction with scatterplots on small screens—a comparative evaluation of geometric-semantic zoom and Fisheye distortion, IEEE Transactions on Visualization and Computer Graphics, 12, 829, 10.1109/TVCG.2006.187 Buyukkokten, 2000, Power browser: efficient web browsing for PDAs, 430 Card, 1999 Chen, 2003, Detecting web page structure for adaptive viewing on small form factor devices, 225 Chittaro, 2006, Visualizing information on mobile devices, IEEE Computer, 39, 40, 10.1109/MC.2006.109 Cockburn, 2003, Comparing speed-dependent automatic zooming with traditional scroll, pan and zoom methods, 87 Cohen, 2000 Fitzmaurice, 2003, Tracking menus, 71 Furnas, 1986, Generalized Fisheye views, 16 Gutwin, 2004, Interacting with big interfaces on small screens: a comparison of Fisheye, zoom, and panning techniques, 145 Harrie, 2002, A mapping function for variable-scale maps in small-display cartography, Journal of Geospatial Engineering, 2, 111 Harrower, 2005, Designing better map interfaces: a framework for panning and zooming, Transactions in GIS, 9, 77, 10.1111/j.1467-9671.2005.00207.x Hornbaek, 2001, Reading of electronic documents: the usability of linear, Fisheye, and overview+detail interfaces, 293 Igarashi, 2000, Speed-dependent automatic zooming for browsing large documents, 139 Irani, 2006, Improving selection of off-screen targets with hopping, 299 Jacobs, 2003, Adaptive grid-based document layout, 838 Jones, 2005, An evaluation of integrated zooming and scrolling on small screens, International Journal of Human–Computer Studies, 63, 271, 10.1016/j.ijhcs.2005.03.005 Kaptelinin, 1995, A comparison of four navigation techniques in a 2D browsing task, 282 Karstens, 2004, Presenting large and complex information sets on mobile handhelds, 32 Lam, 2005, Summary thumbnails: readable overviews for small screen web browsers, 681 Mackinlay, 2003, City lights: contextual views in minimal space, 838 Nekrasovski, 2006, An evaluation of pan&zoom and rubber sheet navigation with and without an overview, 11 Plaisant, 1995, Image-browser taxonomy and guidelines for designers, IEEE Software, 12, 21, 10.1109/52.368260 Pook, 2000, Context and interaction in zoomable user interfaces, 227 Rauschenbach, 2001, General rectangular FishEye views for 2D graphics, Computers and Graphics, 25, 609, 10.1016/S0097-8493(01)00089-9 Robbins, 2005, ZoneZoom: map navigation for Smartphones with recursive view segmentation, 231 Rosenbaum, R., Schumann, H., 2005. Grid-based interaction for effective image browsing on mobile devices. In: Proceedings of the SPIE, vol. 5684, SPIE—The International Society for Optical Engineering, pp. 170–180. Roto, 2006, Minimap: a web page visualization method for mobile phones, 35 Sarkar, 1993, Stretching the Rubber sheet: a metaphor for viewing large layouts on small screens, 81 Skopik, 2005, Improving revisitation in Fisheye views with visit wear, 771 Trevor, 2001, From desktop to phonetop: a UI for web interaction on very small devices, 121 Tufte, 1983 Zipf, 2002, Using focus maps to ease map reading: developing smart applications for mobile devices, Kunstliche Intelligenz, 4, 35