Conceptual and Methodological Issues in Evaluating Multidimensional Visualizations for Decision Support
Experimental Material
Evanthia Dimara, Anastasia Bezerianos and Pierre Dragicevic
We explore how to rigorously evaluate multidimensional visualizations for their ability to support decision making. We first define multi-attribute choice tasks, a type of decision task commonly performed with such visualizations. We then identify which of the existing multidimensional visualizations are compatible with such tasks, and set out to evaluate three elementary visualizations: parallel coordinates, scatterplot matrices and tabular visualizations. Our method consists in first giving participants low-level analytic tasks, in order to ensure that they properly understood the visualizations and their interactions. Participants are then given multi-attribute choice tasks consisting of choosing holiday packages. We assess decision support through multiple objective and subjective metrics, including a decision accuracy metric based on the consistency between the choice made and self-reported preferences for attributes. We found the three visualizations to be comparable on most metrics, with a slight advantage for tabular visualizations. In particular, tabular visualizations allow participants to reach decisions faster. Thus, although decision time is typically not central in assessing decision support, it can be used as a tie-breaker when visualizations achieve similar decision accuracy. Our results also suggest that indirect methods for assessing choice confidence may allow to better distinguish between visualizations than direct ones. We finally discuss the limitations of our methods and directions for future work, such as the need for more sensitive metrics of decision support.
Paper PDF
- Evanthia Dimara, Anastasia Bezerianos, Pierre Dragicevic. Conceptual and Methodological Issues in Evaluating Multidimensional Visualizations for Decision Support . IEEE TVCG 2018 24(1).
Stimuli
Click on the links to see decision task page with each technique (need 1920x1080 resolution screen).
- Parallel Coordinates - decision task
- Scatterplot Matrix - decision task
- Tabular Visualization - decision task
Instruction material: These are printouts used during the explanation and training stage. A lot of the training consisted in oral instructions not provided here.
R code
Contact
License
 | All material on this page is CC-BY-SA. You can reuse or adapt it provided you cite our paper and/or link to http://www.aviz.fr/dm. |