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ALMOND: Adaptive Latent Modeling and Optimization via Neural Networks and Langevin Diffusion

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  • Yixuan Qiu
  • Xiao Wang

Abstract

Latent variable models cover a broad range of statistical and machine learning models, such as Bayesian models, linear mixed models, and Gaussian mixture models. Existing methods often suffer from two major challenges in practice: (a) a proper latent variable distribution is difficult to be specified; (b) making an exact likelihood inference is formidable due to the intractable computation. We propose a novel framework for the inference of latent variable models that overcomes these two limitations. This new framework allows for a fully data-driven latent variable distribution via deep neural networks, and the proposed stochastic gradient method, combined with the Langevin algorithm, is efficient and suitable for complex models and big data. We provide theoretical results for the Langevin algorithm, and establish the convergence analysis of the optimization method. This framework has demonstrated superior practical performance through simulation studies and a real data analysis. Supplementary materials for this article are available online.

Suggested Citation

  • Yixuan Qiu & Xiao Wang, 2021. "ALMOND: Adaptive Latent Modeling and Optimization via Neural Networks and Langevin Diffusion," Journal of the American Statistical Association, Taylor & Francis Journals, vol. 116(535), pages 1224-1236, July.
    • Handle: RePEc:taf:jnlasa:v:116:y:2021:i:535:p:1224-1236
    DOI: 10.1080/01621459.2019.1691563
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