Enhancing random forest predictive performance for foot and mouth disease outbreaks in Uganda: a calibrated uncertainty prediction approach for varying distributions.

IF 3 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Frontiers in Artificial Intelligence Pub Date : 2024-11-01 eCollection Date: 2024-01-01 DOI:10.3389/frai.2024.1455331
Geofrey Kapalaga, Florence N Kivunike, Susan Kerfua, Daudi Jjingo, Savino Biryomumaisho, Justus Rutaisire, Paul Ssajjakambwe, Swidiq Mugerwa, Seguya Abbey, Mulindwa H Aaron, Yusuf Kiwala
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Abstract

Foot-and-mouth disease poses a significant threat to both domestic and wild cloven-hoofed animals, leading to severe economic losses and jeopardizing food security. While machine learning models have become essential for predicting foot-and-mouth disease outbreaks, their effectiveness is often compromised by distribution shifts between training and target datasets, especially in non-stationary environments. Despite the critical impact of these shifts, their implications in foot-and-mouth disease outbreak prediction have been largely overlooked. This study introduces the Calibrated Uncertainty Prediction approach, designed to enhance the performance of Random Forest models in predicting foot-and-mouth disease outbreaks across varying distributions. The Calibrated Uncertainty Prediction approach effectively addresses distribution shifts by calibrating uncertain instances for pseudo-label annotation, allowing the active learner to generalize more effectively to the target domain. By utilizing a probabilistic calibration model, Calibrated Uncertainty Prediction pseudo-annotates the most informative instances, refining the active learner iteratively and minimizing the need for human annotation and outperforming existing methods known to mitigate distribution shifts. This reduces costs, saves time, and lessens the dependence on domain experts while achieving outstanding predictive performance. The results demonstrate that Calibrated Uncertainty Prediction significantly enhances predictive performance in non-stationary environments, achieving an accuracy of 98.5%, Area Under the Curve of 0.842, recall of 0.743, precision of 0.855, and an F1 score of 0.791. These findings underscore Calibrated Uncertainty Prediction's ability to overcome the vulnerabilities of existing ML models, offering a robust solution for foot-and-mouth disease outbreak prediction and contributing to the broader field of predictive modeling in infectious disease management.

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提高乌干达口蹄疫爆发的随机森林预测性能:针对不同分布的校准不确定性预测方法。
口蹄疫对家养和野生蹄类动物都构成了重大威胁,导致严重的经济损失并危及粮食安全。虽然机器学习模型已成为预测口蹄疫爆发的关键,但其有效性往往会因训练数据集和目标数据集之间的分布变化而受到影响,尤其是在非稳态环境中。尽管这些变化具有重要影响,但它们在口蹄疫疫情预测中的意义却在很大程度上被忽视了。本研究介绍了校准不确定性预测方法,旨在提高随机森林模型在不同分布情况下预测口蹄疫爆发的性能。校准不确定性预测方法通过校准伪标签注释的不确定实例来有效解决分布偏移问题,从而使主动学习器更有效地泛化到目标领域。通过利用概率校准模型,"校准不确定性预测 "会对信息量最大的实例进行伪标注,从而迭代改进主动学习器,最大限度地减少对人工标注的需求,并超越已知可减轻分布偏移的现有方法。这降低了成本,节省了时间,减少了对领域专家的依赖,同时实现了出色的预测性能。结果表明,校准不确定性预测显著提高了非稳态环境下的预测性能,准确率达到 98.5%,曲线下面积为 0.842,召回率为 0.743,精确度为 0.855,F1 分数为 0.791。这些发现强调了校准不确定性预测克服现有 ML 模型弱点的能力,为口蹄疫疫情预测提供了强大的解决方案,并为更广泛的传染病管理预测建模领域做出了贡献。
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来源期刊
CiteScore
6.10
自引率
2.50%
发文量
272
审稿时长
13 weeks
期刊最新文献
Catalyzing IVF outcome prediction: exploring advanced machine learning paradigms for enhanced success rate prognostication. Predicting patient reported outcome measures: a scoping review for the artificial intelligence-guided patient preference predictor. A generative AI-driven interactive listening assessment task. Enhancing random forest predictive performance for foot and mouth disease outbreaks in Uganda: a calibrated uncertainty prediction approach for varying distributions. Using genAI in education: the case for critical thinking.
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