English

Grid Labeling: Crowdsourcing Task-Specific Importance from Visualizations

Human-Computer Interaction 2025-06-09 v2

Abstract

Knowing where people look in visualizations is key to effective design. Yet, existing research primarily focuses on free-viewing-based saliency models - although visual attention is inherently task-dependent. Collecting task-relevant importance data remains a resource-intensive challenge. To address this, we introduce Grid Labeling - a novel annotation method for collecting task-specific importance data to enhance saliency prediction models. Grid Labeling dynamically segments visualizations into Adaptive Grids, enabling efficient, low-effort annotation while adapting to visualization structure. We conducted a human subject study comparing Grid Labeling with existing annotation methods, ImportAnnots, and BubbleView across multiple metrics. Results show that Grid Labeling produces the least noisy data and the highest inter-participant agreement with fewer participants while requiring less physical (e.g., clicks/mouse movements) and cognitive effort. An interactive demo is available at https://jangsus1.github.io/Grid-Labeling.

Keywords

Cite

@article{arxiv.2502.13902,
  title  = {Grid Labeling: Crowdsourcing Task-Specific Importance from Visualizations},
  author = {Minsuk Chang and Yao Wang and Huichen Will Wang and Andreas Bulling and Cindy Xiong Bearfield},
  journal= {arXiv preprint arXiv:2502.13902},
  year   = {2025}
}

Comments

6 pages, 4 figures, Accepted to EuroVis 2025 (Short Paper Track)

R2 v1 2026-06-28T21:50:20.544Z