Compressing Tabular Data via Latent Variable Estimation
February 20, 2023 Β· Declared Dead Β· π International Conference on Machine Learning
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Authors
Andrea Montanari, Eric Weiner
arXiv ID
2302.09780
Category
cs.IT: Information Theory
Citations
0
Venue
International Conference on Machine Learning
Last Checked
4 months ago
Abstract
Data used for analytics and machine learning often take the form of tables with categorical entries. We introduce a family of lossless compression algorithms for such data that proceed in four steps: $(i)$ Estimate latent variables associated to rows and columns; $(ii)$ Partition the table in blocks according to the row/column latents; $(iii)$ Apply a sequential (e.g. Lempel-Ziv) coder to each of the blocks; $(iv)$ Append a compressed encoding of the latents. We evaluate it on several benchmark datasets, and study optimal compression in a probabilistic model for that tabular data, whereby latent values are independent and table entries are conditionally independent given the latent values. We prove that the model has a well defined entropy rate and satisfies an asymptotic equipartition property. We also prove that classical compression schemes such as Lempel-Ziv and finite-state encoders do not achieve this rate. On the other hand, the latent estimation strategy outlined above achieves the optimal rate.
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