Longitudinal Variational Autoencoder for Compositional Data Analysis

Mine Öğretir; Harri Lähdesmäki; Jamie Norton

Longitudinal Variational Autoencoder for Compositional Data Analysis

Mine Öğretir, Harri Lähdesmäki, Jamie Norton

Published: 20 Jun 2023, Last Modified: 19 Jul 2023IMLH 2023 PosterShortPaperEveryoneRevisionsBibTeX

Keywords: deep generative models, longitudinal data analysis, variational autoencoders, Gaussian process

Abstract: The analysis of compositional longitudinal data, particularly in microbiome time-series, is a challenging task due to its high-dimensional, sparse, and compositional nature. In this paper, we introduce a novel Gaussian process (GP) prior variational autoencoder for longitudinal data analysis with a multinomial likelihood (MNLVAE) that is specifically designed for compositional time-series analysis. Our generative deep learning model captures complex interactions among microbial taxa while accounting for the compositional structure of the data. We utilize centered log-ratio (CLR) and isometric log-ratio (ILR) transformations to preprocess and transform compositional count data, and utilize a latent multi-output additive GP model to enable prediction of future observations. Our experiments demonstrate that MNLVAE outperforms competing method, offering improved prediction performance across different longitudinal microbiome datasets.

Submission Number: 21

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