概率验证度量的统一框架

IF 0.5 Q4 ENGINEERING, MECHANICAL
P. Gardner, C. Lord, R. Barthorpe
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引用次数: 8

摘要

概率建模方法越来越多地应用于工程应用中。这些方法对感兴趣的输出量的分布进行推断。应用概率计算机模型(模拟器)的一个挑战是根据观测数据的样本验证输出分布。理想的验证度量是直观地提供模拟器输出和观测分布之间的关键差异信息,如统计距离/偏差。在文献中,只有一小部分统计距离/偏差被用于这项任务;通常是基于用户体验而选择的,而不参考更广泛的可用种类。因此,本文提供了一个统计距离/差异的统一框架,对文献中实施的距离/差异进行了分类,更好地了解了它们的好处,并提供了新的潜在衡量标准作为验证指标。在本文中,分析了两类用于量化分布之间差异的度量,包括文献中现有的统计距离/偏差:f偏差和积分概率度量(IPMs)。强调了这些系列的具体措施,对当前和新的验证指标进行了评估,并讨论了它们在确定模拟器充分性方面的优点,提供了在量化概率质量范围内的差异方面具有更高灵敏度的验证指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Unifying Framework for Probabilistic Validation Metrics
Probabilistic modeling methods are increasingly being employed in engineering applications. These approaches make inferences about the distribution for output quantities of interest. A challenge in applying probabilistic computer models (simulators) is validating output distributions against samples from observational data. An ideal validation metric is one that intuitively provides information on key differences between the simulator output and observational distributions, such as statistical distances/divergences. Within the literature, only a small set of statistical distances/divergences have been utilized for this task; often selected based on user experience and without reference to the wider variety available. As a result, this paper offers a unifying framework of statistical distances/divergences, categorizing those implemented within the literature, providing a greater understanding of their benefits, and offering new potential measures as validation metrics. In this paper, two families of measures for quantifying differences between distributions, that encompass the existing statistical distances/divergences within the literature, are analyzed: f-divergence and integral probability metrics (IPMs). Specific measures from these families are highlighted, providing an assessment of current and new validation metrics, with a discussion of their merits in determining simulator adequacy, offering validation metrics with greater sensitivity in quantifying differences across the range of probability mass.
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来源期刊
CiteScore
1.60
自引率
16.70%
发文量
12
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