English

The Categorical Data Map: A Multidimensional Scaling-Based Approach

Human-Computer Interaction 2025-01-15 v4 Graphics

Abstract

Categorical data does not have an intrinsic definition of distance or order, and therefore, established visualization techniques for categorical data only allow for a set-based or frequency-based analysis, e.g., through Euler diagrams or Parallel Sets, and do not support a similarity-based analysis. We present a novel dimensionality reduction-based visualization for categorical data, which is based on defining the distance of two data items as the number of varying attributes. Our technique enables users to pre-attentively detect groups of similar data items and observe the properties of the projection, such as attributes strongly influencing the embedding. Our prototype visually encodes data properties in an enhanced scatterplot-like visualization, encoding attributes in the background to show the distribution of categories. In addition, we propose two graph-based measures to quantify the plot's visual quality, which rank attributes according to their contribution to cluster cohesion. To demonstrate the capabilities of our similarity-based approach, we compare it to Euler diagrams and Parallel Sets regarding visual scalability and show its benefits through an expert study with five data scientists analyzing the Titanic and Mushroom datasets with up to 23 attributes and 8124 category combinations. Our results indicate that the Categorical Data Map offers an effective analysis method, especially for large datasets with a high number of category combinations.

Keywords

Cite

@article{arxiv.2404.16044,
  title  = {The Categorical Data Map: A Multidimensional Scaling-Based Approach},
  author = {Frederik L. Dennig and Lucas Joos and Patrick Paetzold and Daniela Blumberg and Oliver Deussen and Daniel A. Keim and Maximilian T. Fischer},
  journal= {arXiv preprint arXiv:2404.16044},
  year   = {2025}
}

Comments

Fully replaced; 10 pages, 9 figures, LaTeX; to appear at Visual Data Science (VDS) Symposium at IEEE VIS 2024

R2 v1 2026-06-28T16:05:21.073Z