Efficient preconditioned stochastic gradient descent for estimation in latent variable models - Archive ouverte HAL
Communication Dans Un Congrès Année : 2023

Efficient preconditioned stochastic gradient descent for estimation in latent variable models

Résumé

Latent variable models are powerful tools for modeling complex phenomena involving in particular partially observed data, unobserved variables or underlying complex unknown structures. Inference is often difficult due to the latent structure of the model. To deal with parameter estimation in the presence of latent variables, well-known efficient methods exist, such as gradient-based and EM-type algorithms, but with practical and theoretical limitations. In this paper, we propose as an alternative for parameter estimation an efficient preconditioned stochastic gradient algorithm. Our method includes a preconditioning step based on a positive definite Fisher information matrix estimate. We prove convergence results for the proposed algorithm under mild assumptions for very general latent variables models. We illustrate through relevant simulations the performance of the proposed methodology in a nonlinear mixed effects model and in a stochastic block model.
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Dates et versions

hal-04131641 , version 1 (19-06-2023)

Identifiants

Citer

Charlotte Baey, Maud Delattre, Estelle Kuhn, Jean-Benoist Leger, Sarah Lemler. Efficient preconditioned stochastic gradient descent for estimation in latent variable models. 40th International Conference on Machine Learning, Jul 2023, Honolulu, United States. ⟨hal-04131641⟩
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