Alexander von Eye, Wolfgang Wiedermann, Stefan von Weber
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引用次数: 0
摘要
振荡的分数序列可以用局部优化的平滑函数来近似。在本文中,我们将介绍如何用局部估计(黄土)平滑函数逼近此类序列,以及如何使用构频分析(CFA)来评估和解释结果。黄土函数通常很难描述,因为它们无法用一个具有可解释参数的函数来表示。在本文中,我们建议根据用于局部曲线优化的窗口宽度、近似点邻域数据点的权重以及用于局部近似观测数据的函数来指定 CFA 基本模型。CFA 类型表示发现的案例多于局部优化模型的预期。CFA 反类表示发现的案例较少。在一个实际数据示例中,分析了大流行初期法国 Covid-19 诊断的发展情况。
Oscillating series of scores can be approximated with locally optimized smoothing functions. In this article, we describe how such series can be approximated with locally estimated (loess) smoothing, and how Configural Frequency Analysis (CFA) can be used to evaluate and interpret results. Loess functions are often hard to describe because they cannot be represented by just one function that has interpretable parameters. In this article, we suggest that specification of the CFA base model be based on the width of the window that is used for local curve optimization, the weight given to data points in the neighborhood of the approximated one, and by the function that is used to locally approximate observed data. CFA types indicate that more cases were found than expected from the local optimization model. CFA antitypes indicate that fewer cases were found. In a real-world data example, the development of Covid-19 diagnoses in France is analyzed for the beginning period of the pandemic.
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