Bayesian hierarchical modeling and inference for mechanistic systems in industrial hygiene.

IF 1.8 4区 医学 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH Annals Of Work Exposures and Health Pub Date : 2024-09-27 DOI:10.1093/annweh/wxae061
Soumyakanti Pan, Darpan Das, Gurumurthy Ramachandran, Sudipto Banerjee
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Abstract

A series of experiments in stationary and moving passenger rail cars were conducted to measure removal rates of particles in the size ranges of SARS-CoV-2 viral aerosols and the air changes per hour provided by existing and modified air handling systems. Such methods for exposure assessments are customarily based on mechanistic models derived from physical laws of particle movement that are deterministic and do not account for measurement errors inherent in data collection. The resulting analysis compromises on reliably learning about mechanistic factors such as ventilation rates, aerosol generation rates, and filtration efficiencies from field measurements. This manuscript develops a Bayesian state-space modeling framework that synthesizes information from the mechanistic system as well as the field data. We derive a stochastic model from finite difference approximations of differential equations explaining particle concentrations. Our inferential framework trains the mechanistic system using the field measurements from the chamber experiments and delivers reliable estimates of the underlying physical process with fully model-based uncertainty quantification. Our application falls within the realm of the Bayesian "melding" of mechanistic and statistical models and is of significant relevance to environmental hygienists and public health researchers working on assessing the performance of aerosol removal rates for rail car fleets.

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工业卫生机理系统的贝叶斯分层建模和推理。
在静止和移动的火车客运车厢中进行了一系列实验,以测量 SARS-CoV-2 病毒气溶胶大小范围内的微粒清除率,以及现有和改进的空气处理系统每小时提供的换气次数。这种暴露评估方法通常基于从粒子运动的物理规律中推导出的机械模型,这些模型是确定性的,并不考虑数据收集过程中固有的测量误差。由此产生的分析结果无法可靠地了解通风率、气溶胶生成率和现场测量的过滤效率等机理因素。本手稿建立了一个贝叶斯状态空间建模框架,综合了来自机理系统和现场数据的信息。我们从解释颗粒浓度的微分方程的有限差分近似值中推导出一个随机模型。我们的推理框架利用试验室实验的现场测量结果来训练机理系统,并通过完全基于模型的不确定性量化来提供对基本物理过程的可靠估计。我们的应用属于贝叶斯机理和统计模型 "融合 "的范畴,对致力于评估铁路车辆气溶胶去除率性能的环境卫生学家和公共卫生研究人员具有重要意义。
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来源期刊
Annals Of Work Exposures and Health
Annals Of Work Exposures and Health Medicine-Public Health, Environmental and Occupational Health
CiteScore
4.60
自引率
19.20%
发文量
79
期刊介绍: About the Journal Annals of Work Exposures and Health is dedicated to presenting advances in exposure science supporting the recognition, quantification, and control of exposures at work, and epidemiological studies on their effects on human health and well-being. A key question we apply to submission is, "Is this paper going to help readers better understand, quantify, and control conditions at work that adversely or positively affect health and well-being?" We are interested in high quality scientific research addressing: the quantification of work exposures, including chemical, biological, physical, biomechanical, and psychosocial, and the elements of work organization giving rise to such exposures; the relationship between these exposures and the acute and chronic health consequences for those exposed and their families and communities; populations at special risk of work-related exposures including women, under-represented minorities, immigrants, and other vulnerable groups such as temporary, contingent and informal sector workers; the effectiveness of interventions addressing exposure and risk including production technologies, work process engineering, and personal protective systems; policies and management approaches to reduce risk and improve health and well-being among workers, their families or communities; methodologies and mechanisms that underlie the quantification and/or control of exposure and risk. There is heavy pressure on space in the journal, and the above interests mean that we do not usually publish papers that simply report local conditions without generalizable results. We are also unlikely to publish reports on human health and well-being without information on the work exposure characteristics giving rise to the effects. We particularly welcome contributions from scientists based in, or addressing conditions in, developing economies that fall within the above scope.
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