Increasing the reproducibility and replicability of supervised AI/ML in the Earth systems science by leveraging social science methods

Wirz, C. D., Sutter, C., Demuth, J. L., Mayer, K. J., Chapman, W. E., et al. (2024). Increasing the reproducibility and replicability of supervised AI/ML in the Earth systems science by leveraging social science methods. Earth and Space Science, doi:10.1029/2023EA003364

Title Increasing the reproducibility and replicability of supervised AI/ML in the Earth systems science by leveraging social science methods
Author(s) Christopher D. Wirz, Carly Sutter, Julie L. Demuth, Kirsten J. Mayer, William E. Chapman, Mariana Goodall Cains, Jacob Radford, Vanessa Przybylo, Aaron Evans, Thomas Martin, Lauriana C. Gaudet, Kara Sulia, Ann Bostrom, David John Gagne II, Nick Bassill, Andrea Schumacher, Christopher Thorncroft
Abstract Artificial intelligence (AI) and machine learning (ML) pose a challenge for achieving science that is both reproducible and replicable. The challenge is compounded in supervised models that depend on manually labeled training data, as they introduce additional decision-making and processes that require thorough documentation and reporting. We address these limitations by providing an approach to hand labeling training data for supervised ML that integrates quantitative content analysis (QCA)-a method from social science research. The QCA approach provides a rigorous and well-documented hand labeling procedure to improve the replicability and reproducibility of supervised ML applications in Earth systems science (ESS), as well as the ability to evaluate them. Specifically, the approach requires (a) the articulation and documentation of the exact decision-making process used for assigning hand labels in a "codebook" and (b) an empirical evaluation of the reliability" of the hand labelers. In this paper, we outline the contributions of QCA to the field, along with an overview of the general approach. We then provide a case study to further demonstrate how this framework has and can be applied when developing supervised ML models for applications in ESS. With this approach, we provide an actionable path forward for addressing ethical considerations and goals outlined by recent AGU work on ML ethics in ESS.
Publication Title Earth and Space Science
Publication Date Jul 1, 2024
Publisher's Version of Record https://dx.doi.org/10.1029/2023EA003364
OpenSky Citable URL https://n2t.net/ark:/85065/d7dv1q3w
OpenSky Listing View on OpenSky
CISL Affiliations TDD, MILES

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