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Main Authors: Chung, Simon, Vorland, Colby J., Maney, Donna L., Brown, Andrew W.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.08371
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author Chung, Simon
Vorland, Colby J.
Maney, Donna L.
Brown, Andrew W.
author_facet Chung, Simon
Vorland, Colby J.
Maney, Donna L.
Brown, Andrew W.
contents Datasets may contain observations with multiple labels. If the labels are not mutually exclusive, and if the labels vary greatly in frequency, obtaining a sample that includes sufficient observations with scarcer labels to make inferences about those labels, and which deviates from the population frequencies in a known manner, creates challenges. In this paper, we consider a multivariate Bernoulli distribution as our underlying distribution of a multi-label problem. We present a novel sampling algorithm that takes label dependencies into account. It uses observed label frequencies to estimate multivariate Bernoulli distribution parameters and calculates weights for each label combination. This approach ensures the weighted sampling acquires target distribution characteristics while accounting for label dependencies. We applied this approach to a variety of datasets, including a sample of research articles from Web of Science labeled with 64 biomedical topic categories. We aimed to preserve category frequency order, reduce frequency differences between most and least common categories, and account for category dependencies. This approach produced a more balanced sub-sample, enhancing the representation of minority categories.
format Preprint
id arxiv_https___arxiv_org_abs_2512_08371
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Multivariate Bernoulli-Based Sampling Method for Multi-Label Data with Application to Meta-Research
Chung, Simon
Vorland, Colby J.
Maney, Donna L.
Brown, Andrew W.
Machine Learning
Datasets may contain observations with multiple labels. If the labels are not mutually exclusive, and if the labels vary greatly in frequency, obtaining a sample that includes sufficient observations with scarcer labels to make inferences about those labels, and which deviates from the population frequencies in a known manner, creates challenges. In this paper, we consider a multivariate Bernoulli distribution as our underlying distribution of a multi-label problem. We present a novel sampling algorithm that takes label dependencies into account. It uses observed label frequencies to estimate multivariate Bernoulli distribution parameters and calculates weights for each label combination. This approach ensures the weighted sampling acquires target distribution characteristics while accounting for label dependencies. We applied this approach to a variety of datasets, including a sample of research articles from Web of Science labeled with 64 biomedical topic categories. We aimed to preserve category frequency order, reduce frequency differences between most and least common categories, and account for category dependencies. This approach produced a more balanced sub-sample, enhancing the representation of minority categories.
title A Multivariate Bernoulli-Based Sampling Method for Multi-Label Data with Application to Meta-Research
topic Machine Learning
url https://arxiv.org/abs/2512.08371