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Bi-level Doubly Variational Learning for Energy-based Latent Variable Models

Computer Vision and Pattern Recognition 2022-03-29 v1 Machine Learning Machine Learning

Abstract

Energy-based latent variable models (EBLVMs) are more expressive than conventional energy-based models. However, its potential on visual tasks are limited by its training process based on maximum likelihood estimate that requires sampling from two intractable distributions. In this paper, we propose Bi-level doubly variational learning (BiDVL), which is based on a new bi-level optimization framework and two tractable variational distributions to facilitate learning EBLVMs. Particularly, we lead a decoupled EBLVM consisting of a marginal energy-based distribution and a structural posterior to handle the difficulties when learning deep EBLVMs on images. By choosing a symmetric KL divergence in the lower level of our framework, a compact BiDVL for visual tasks can be obtained. Our model achieves impressive image generation performance over related works. It also demonstrates the significant capacity of testing image reconstruction and out-of-distribution detection.

Keywords

Cite

@article{arxiv.2203.14702,
  title  = {Bi-level Doubly Variational Learning for Energy-based Latent Variable Models},
  author = {Ge Kan and Jinhu Lü and Tian Wang and Baochang Zhang and Aichun Zhu and Lei Huang and Guodong Guo and Hichem Snoussi},
  journal= {arXiv preprint arXiv:2203.14702},
  year   = {2022}
}

Comments

CVPR 2022

R2 v1 2026-06-24T10:28:17.186Z