Probabilistic prediction of arrivals and hospitalizations in emergency departments in Île-de-France

IF 3.7 2区医学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS International Journal of Medical Informatics Pub Date : 2024-12-04 DOI:10.1016/j.ijmedinf.2024.105728

Herbert Susmann , Antoine Chambaz , Julie Josse , Philippe Aegerter , Mathias Wargon , Emmanuel Bacry

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Abstract

Background

Forecasts of future demand is foundational for effective resource allocation in emergency departments (EDs). As ED demand is inherently variable, it is important for forecasts to characterize the range of possible future demand. However, extant research focuses primarily on producing point forecasts using a wide variety of prediction algorithms. In this study, our objective is to generate point and interval predictions that accurately characterize the variability in ED demand using ensemble methods that combine predictions from multiple base algorithms based on their empirical performance.

Methods

Data consisted in daily arrivals and subsequent hospitalizations at 72 emergency departments in Île-de-France from 2014–2018. Additional explanatory variables were collected including public and school holidays, meteorological variables, and public health trends. One-day ahead point and 80% interval predictions of arrivals and hospitalizations were produced by predicting the 10%, 50%, and 90% quantiles of the forecast distribution. Quantile prediction algorithms included methods such as ARIMAX, variations of random forests, and generalized additive models. Ensemble predictions were then formed using Exponentially Weighted Averaging, Bernstein Online Aggregation, and Super Learning. Prediction intervals were post-processed using Adaptive Conformal Inference techniques. Point predictions were evaluated by their Mean Absolute Error (MAE) and Mean Absolute Percentage Error (MAPE), and 80% interval predictions by their empirical coverage and mean interval width.

Results

For point forecasts, ensemble methods achieved lower average MAE and MAPE than any of the base algorithms. All of the base algorithms and ensemble methods yielded prediction intervals with near optimal empirical coverage after conformalization. For hospitalizations, the shortest mean interval widths were achieved by the ensemble methods.

Conclusions

Ensemble methods yield joint point and prediction intervals that adapt to individual EDs and achieve better performance than individual algorithms. Conformal inference techniques improve the performance of the prediction intervals.

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Île-de-France急诊科到达和住院的概率预测。

背景：预测未来的需求是有效分配急诊科资源的基础。由于电力需求本身是可变的，因此预测未来可能需求的范围是很重要的。然而，现有的研究主要集中在使用各种预测算法产生点预测。在本研究中，我们的目标是使用集成方法生成点和区间预测，准确地表征ED需求的可变性，该方法结合了基于经验表现的多个基本算法的预测。方法：数据包括2014-2018年Île-de-France 72个急诊科的每日到达和随后的住院情况。收集了其他解释变量，包括公共和学校假期、气象变量和公共卫生趋势。通过预测预测分布的10%、50%和90%分位数，得出了到达和住院的一天前点和80%间隔预测。分位数预测算法包括ARIMAX、随机森林变异和广义加性模型等方法。然后使用指数加权平均、Bernstein在线聚合和超级学习形成集合预测。使用自适应共形推理技术对预测区间进行后处理。点预测通过平均绝对误差（MAE）和平均绝对百分比误差（MAPE）进行评估，80%区间预测通过经验覆盖率和平均区间宽度进行评估。结果：对于点预测，集成方法的平均MAE和MAPE低于任何基本算法。所有的基本算法和集成方法在整合后都产生了接近最优经验覆盖率的预测区间。对于住院治疗，集合方法获得了最短的平均间隔宽度。结论：集成方法产生的结合点和预测区间适应于个体ed，并且比单个算法具有更好的性能。共形推理技术提高了预测区间的性能。

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来源期刊

International Journal of Medical Informatics 医学-计算机：信息系统

CiteScore

8.90

自引率

4.10%

发文量

217

审稿时长

42 days

期刊介绍： International Journal of Medical Informatics provides an international medium for dissemination of original results and interpretative reviews concerning the field of medical informatics. The Journal emphasizes the evaluation of systems in healthcare settings. The scope of journal covers: Information systems, including national or international registration systems, hospital information systems, departmental and/or physician''s office systems, document handling systems, electronic medical record systems, standardization, systems integration etc.; Computer-aided medical decision support systems using heuristic, algorithmic and/or statistical methods as exemplified in decision theory, protocol development, artificial intelligence, etc. Educational computer based programs pertaining to medical informatics or medicine in general; Organizational, economic, social, clinical impact, ethical and cost-benefit aspects of IT applications in health care.