This study explores the relationship between the visual properties of Generalized Additive Model (GAM) shape plots and the cognitive load they impose on users. The researchers developed Python functions to quantify various visual properties of shape plots, including graph length, polynomial degree, visual chunks, number of kinks, and average kink distance.
Through a user study with 57 participants, the researchers evaluated the alignment between these metrics and the participants' perceived cognitive load when working with 144 different shape plots. The results indicate that the number of kinks metric is the most effective, explaining 86.4% of the variance in users' ratings. The researchers developed a simple model based on the number of kinks that can predict the cognitive load associated with a given shape plot, enabling the assessment of one aspect of GAM interpretability without direct user involvement.
The study also validated the metric-based models by examining how well they align with user rankings and binary choices regarding cognitive load. The number of kinks model performed strongly, approaching the accuracy of a baseline derived from users' mean cognitive load ratings.
The findings contribute to the understanding of interpretable machine learning by proposing a novel approach to quantify the visual properties of GAM shape plots and identifying the number of kinks as the most effective predictor of cognitive load. The researchers also provide a public dataset of shape plots with user-rated cognitive load, facilitating future research on assessing the interpretability of GAM shape plots.
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arxiv.org
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by Sven Krusche... ב- arxiv.org 09-26-2024
https://arxiv.org/pdf/2409.16870.pdfשאלות מעמיקות