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引用次数: 0
摘要
复合泊松过程(CPP)是描述医学、可靠性理论和风险理论中许多现象的常用数学模型。然而,对于低频现象,我们往往无法收集足够大的数据库来进行分析。在本文中,我们重点讨论了在样本量较小时确定 CPP 率置信区间的方法。基于过程参数估计器的特性,我们提出了一种构建此类区间的新方法,并将其与其他已知方法进行了比较。在数值模拟中,我们使用了几种连续和离散分布的合成数据。我们单独讨论了 CPP 的情况,其中奖励来自指数分布。我们给出了如何使用每种方法获得更精确置信区间的建议。所有模拟均在 R 4.2.1 版本中进行。
The compound Poisson process (CPP) is a common mathematical model for describing many phenomena in medicine, reliability theory and risk theory. However, in the case of low-frequency phenomena, we are often unable to collect a sufficiently large database to conduct analysis. In this article, we focused on methods for determining confidence intervals for the rate of the CPP when the sample size is small. Based on the properties of process parameter estimators, we proposed a new method for constructing such intervals and compared it with other known approaches. In numerical simulations, we used synthetic data from several continuous and discrete distributions. The case of CPP, in which rewards came from exponential distribution, was discussed separately. The recommendation of how to use each method to have a more precise confidence interval is given. All simulations were performed in R version 4.2.1.
期刊介绍:
The journal Statistical Papers addresses itself to all persons and organizations that have to deal with statistical methods in their own field of work. It attempts to provide a forum for the presentation and critical assessment of statistical methods, in particular for the discussion of their methodological foundations as well as their potential applications. Methods that have broad applications will be preferred. However, special attention is given to those statistical methods which are relevant to the economic and social sciences. In addition to original research papers, readers will find survey articles, short notes, reports on statistical software, problem section, and book reviews.
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