One-sided Matrix Completion from Two Observations Per Row

June 06, 2023 ยท Declared Dead ยท ๐Ÿ› International Conference on Machine Learning

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Authors Steven Cao, Percy Liang, Gregory Valiant arXiv ID 2306.04049 Category cs.LG: Machine Learning Cross-listed cs.DS, stat.ML Citations 1 Venue International Conference on Machine Learning Last Checked 4 months ago
Abstract
Given only a few observed entries from a low-rank matrix $X$, matrix completion is the problem of imputing the missing entries, and it formalizes a wide range of real-world settings that involve estimating missing data. However, when there are too few observed entries to complete the matrix, what other aspects of the underlying matrix can be reliably recovered? We study one such problem setting, that of "one-sided" matrix completion, where our goal is to recover the right singular vectors of $X$, even in the regime where recovering the left singular vectors is impossible, which arises when there are more rows than columns and very few observations. We propose a natural algorithm that involves imputing the missing values of the matrix $X^TX$ and show that even with only two observations per row in $X$, we can provably recover $X^TX$ as long as we have at least $ฮฉ(r^2 d \log d)$ rows, where $r$ is the rank and $d$ is the number of columns. We evaluate our algorithm on one-sided recovery of synthetic data and low-coverage genome sequencing. In these settings, our algorithm substantially outperforms standard matrix completion and a variety of direct factorization methods.
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