PhD Proposal: Perceptual Factors in Comparative Visual Analytics

Talk
Brian Ondov
Time: 
02.04.2020 13:00 to 15:00
Location: 
IRB 5137

Vision science has informed decades of development in the field of data visualization, providing theoretical and empirical bases for data to be translated into graphics in the most effective ways. Perhaps the most notable examples are classic studies that have ranked encodings (e.g. length, position, or area) by accuracy of visual decoding. Experimental validity in this work is typically achieved with simple, controlled tasks, often asking participants to compare only a pair of marks within a single data series. In practice, however, datasets are rarely viewed in isolation, and comparisons are not drawn just within one series, but across and between multiple series, involving complex visual operations. The work discussed here will seek to elucidate the perceptual factors of visual comparison with perceptual theory and empirical study.Our research to this point has approached the problem with two main efforts. In the first, we perform user studies with multiple data series and tasks specific to their comparison. The manner of comparison (e.g. placing charts side-by-side or overlaying them) is varied within each experiment, while other factors, such as encoding, are fixed. The results of these experiments suggest a complex interaction of factors, with different comparative arrangements providing benefits for different combinations of tasks and encodings. For example, in line with prior intuition, we find that superimposing two charts makes judgment of differences easier. However, somewhat surprisingly, we find that animation is even more effective for this task. Further, while “stacking” one chart above another vertically performed poorly for judgement of differences, it was the most effective layout when the task was determining which series had the largest mean or the widest range. It is thus difficult to provide broad, practical guidance for comparisons as done previously for encodings. While, in theory, all combinations of comparative layouts, encodings, tasks, etc., could be empirically tested, this would not be practical.Our second effort thus works toward such guidance by seeking to find latent factors that may cut across explicit features such as arrangement and mark type. To this end, we introduce perceptual proxies, which are simplified visual operations, or shortcuts, that we can theorize are used by the visual system to perform more complex tasks. These could be, for example, choosing the series with the longest bar or with the largest convex hull area instead of computing the true mean value. We propose an initial list of candidate proxies and compare their predictions to actual user responses from our prior studies. However, as these data were not generated to discriminate proxies from true answers, it is not ideal for this task, as the differences between proxies and true answers are often subtle.In work we propose here, we will further investigate proxies by conducting additional user studies with more adversarial datasets, which will intentionally have large differences between the task metric (e.g. mean value) and various proxy metrics (e.g. convex hull area). The hope is that these datasets can catch the visual system in the act of using these proxies. Additionally, we theorize that different individuals may apply different proxies, whether based on predisposition or prior experience with visual analytics. We will investigate this by applying latent, generative models to participant responses, allowing multiple strategies to emerge if they exist. Ultimately, we hope to generalize findings from focused, empirical studies such that, given an intended task, we can provide designers, practitioners, and, potentially, automated systems with evidence-based recommendations for creating effective visual comparisons.Examining Committee:

Chair: Dr. Niklas Elmqvist Dept rep: Dr. Marine Carpuat Members: Dr. Hector Corrada Bravo Dr. Adam Phillippy