A Unified Bayesian Framework for Modeling Measurement Error in Multinomial Data
Methodology
2024-10-15 v2 Applications
Abstract
Measurement error in multinomial data is a well-known and well-studied inferential problem that is encountered in many fields, including engineering, biomedical and omics research, ecology, finance, official statistics, and social sciences. Methods developed to accommodate measurement error in multinomial data are typically equipped to handle false negatives or false positives, but not both. We provide a unified framework for accommodating both forms of measurement error using a Bayesian hierarchical approach. We demonstrate the proposed method's performance on simulated data and apply it to acoustic bat monitoring and official crime data.
Cite
@article{arxiv.2310.09345,
title = {A Unified Bayesian Framework for Modeling Measurement Error in Multinomial Data},
author = {Matthew D. Koslovsky and Andee Kaplan and Victoria A. Terranova and Mevin B. Hooten},
journal= {arXiv preprint arXiv:2310.09345},
year = {2024}
}
Comments
31 pages, 6 figures