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Structural Equation-VAE: Disentangled Latent Representations for Tabular Data

Machine Learning 2025-08-19 v2 Artificial Intelligence Neural and Evolutionary Computing

Abstract

Learning interpretable latent representations from tabular data remains a challenge in deep generative modeling. We introduce SE-VAE (Structural Equation-Variational Autoencoder), a novel architecture that embeds measurement structure directly into the design of a variational autoencoder. Inspired by structural equation modeling, SE-VAE aligns latent subspaces with known indicator groupings and introduces a global nuisance latent to isolate construct-specific confounding variation. This modular architecture enables disentanglement through design rather than through statistical regularizers alone. We evaluate SE-VAE on a suite of simulated tabular datasets and benchmark its performance against a series of leading baselines using standard disentanglement metrics. SE-VAE consistently outperforms alternatives in factor recovery, interpretability, and robustness to nuisance variation. Ablation results reveal that architectural structure, rather than regularization strength, is the key driver of performance. SE-VAE offers a principled framework for white-box generative modeling in scientific and social domains where latent constructs are theory-driven and measurement validity is essential.

Keywords

Cite

@article{arxiv.2508.06347,
  title  = {Structural Equation-VAE: Disentangled Latent Representations for Tabular Data},
  author = {Ruiyu Zhang and Ce Zhao and Xin Zhao and Lin Nie and Wai-Fung Lam},
  journal= {arXiv preprint arXiv:2508.06347},
  year   = {2025}
}

Comments

10 pages, 2 figures

R2 v1 2026-07-01T04:41:10.063Z