Midwest Uncertainty Collective

Paper

Benefitting InfoVis with Visual Difficulties

Jessica Hullman, Eytan Adar, Priti Shah  IEEE Trans. Visualization & Comp. Graphics (Proc. INFOVIS) 2011 Best Paper Honorable Mention
Recreation of graphs from Zacks et al.1998 that vary rendering characters and depth cues.

Recreation of graphs from Zacks et al.1998 that vary rendering characters and depth cues.

Abstract

Many well-cited theories for visualization design state that a visual representation should be optimized for quick and immediate interpretation by a user. Distracting elements like decorative “chartjunk” or extraneous information are avoided so as not to slow comprehension. Yet several recent studies in visualization research provide evidence that non-efficient visual elements may benefit comprehension and recall on the part of users. Similarly, findings from studies related to learning from visual displays in various subfields of psychology suggest that introducing cognitive difficulties to visualization interaction can improve a userʼs understanding of important information. In this paper, we synthesize empirical results from cross-disciplinary research on visual information representations, providing a counterpoint to efficiency-based design theory with guidelines that describe how visual difficulties can be introduced to benefit comprehension and recall. We identify conditions under which the application of visual difficulties is appropriate based on underlying factors in visualization interaction like active processing and engagement. We characterize effective graph design as a trade-off between efficiency and learning difficulties in order to provide Information Visualization (InfoVis) researchers and practitioners with a framework for organizing explorations of graphs for which comprehension and recall are crucial. We identify implications of this view for the design and evaluation of information visualizations.

Citation

BibTeX

@article{visual-difficulties-2011,
	title        = {Benefitting InfoVis with Visual Difficulties},
	author       = {Hullman, Jessica and Adar, Eytan and Shah, Priti},
	year         = 2011,
	journal      = {IEEE Transactions on Visualization and Computer Graphics},
	volume       = 17,
	number       = 12,
	pages        = {2213--2222},
	doi          = {10.1109/TVCG.2011.175}
}