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Learning Preferences from Conjoint Data: A Structural Deep Learning Approach

Methodology 2026-05-26 v2 Econometrics

Abstract

Conjoint experiments randomize multidimensional profiles, offering a powerful design for recovering structural preference parameters -- including marginal rates of substitution, willingness to pay, and the distribution of preferences across a population. Yet the dominant approach in political science has focused on nonparametric causal estimands that do not leverage this potential. We propose a structural approach that embeds a deep neural network within a random utility logit model, allowing preference parameters to vary as a fully flexible function of respondent characteristics. The neural network addresses the concern that a parametric specification may not capture the true data generating process, while double/debiased machine learning provides valid inference on average preference parameters. We apply our method to three prominent conjoint studies and find rich preference heterogeneity masked by reduced-form averages: a near-zero gender effect coexists with 83% preferring female candidates, opposition to undemocratic behavior is near-universal but varies sharply in intensity, and progressive tax preferences cut across every partisan subgroup.

Keywords

Cite

@article{arxiv.2604.10845,
  title  = {Learning Preferences from Conjoint Data: A Structural Deep Learning Approach},
  author = {Avidit Acharya and Jens Hainmueller and Yiqing Xu},
  journal= {arXiv preprint arXiv:2604.10845},
  year   = {2026}
}
R2 v1 2026-07-01T12:05:21.190Z