The Trustworthy Pal: Controlling the False Discovery Rate in Boolean Matrix Factorization
Sibylle Hess, Nico Piatkowski, Katharina Morik

TL;DR
This paper introduces a method to control the false discovery rate in Boolean matrix factorization, providing theoretical bounds and improved algorithms to distinguish true patterns from noise.
Contribution
It develops a theoretical framework for false discovery control in BMF, offering bounds and new algorithms that improve pattern reliability.
Findings
Bounds effectively identify noise-induced patterns.
Improved algorithms outperform heuristic methods.
Empirical results confirm theoretical bounds' effectiveness.
Abstract
Boolean matrix factorization (BMF) is a popular and powerful technique for inferring knowledge from data. The mining result is the Boolean product of two matrices, approximating the input dataset. The Boolean product is a disjunction of rank-1 binary matrices, each describing a feature-relation, called pattern, for a group of samples. Yet, there are no guarantees that any of the returned patterns do not actually arise from noise, i.e., are false discoveries. In this paper, we propose and discuss the usage of the false discovery rate in the unsupervised BMF setting. We prove two bounds on the probability that a found pattern is constituted of random Bernoulli-distributed noise. Each bound exploits a specific property of the factorization which minimizes the approximation error---yielding new insights on the minimizers of Boolean matrix factorization. This leads to improved BMF algorithms…
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