English

Prediction-Constrained Training for Semi-Supervised Mixture and Topic Models

Machine Learning 2017-11-15 v1 Artificial Intelligence Machine Learning

Abstract

Supervisory signals have the potential to make low-dimensional data representations, like those learned by mixture and topic models, more interpretable and useful. We propose a framework for training latent variable models that explicitly balances two goals: recovery of faithful generative explanations of high-dimensional data, and accurate prediction of associated semantic labels. Existing approaches fail to achieve these goals due to an incomplete treatment of a fundamental asymmetry: the intended application is always predicting labels from data, not data from labels. Our prediction-constrained objective for training generative models coherently integrates loss-based supervisory signals while enabling effective semi-supervised learning from partially labeled data. We derive learning algorithms for semi-supervised mixture and topic models using stochastic gradient descent with automatic differentiation. We demonstrate improved prediction quality compared to several previous supervised topic models, achieving predictions competitive with high-dimensional logistic regression on text sentiment analysis and electronic health records tasks while simultaneously learning interpretable topics.

Keywords

Cite

@article{arxiv.1707.07341,
  title  = {Prediction-Constrained Training for Semi-Supervised Mixture and Topic Models},
  author = {Michael C. Hughes and Leah Weiner and Gabriel Hope and Thomas H. McCoy and Roy H. Perlis and Erik B. Sudderth and Finale Doshi-Velez},
  journal= {arXiv preprint arXiv:1707.07341},
  year   = {2017}
}
R2 v1 2026-06-22T20:55:10.856Z