Confidence Intervals and Regions for Quantiles using Conditional Monte Carlo and Generalized Likelihood Ratios

Lei Lei, C. Alexopoulos, Yijie Peng, James R. Wilson
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Abstract

This article develops confidence intervals (CIs) and confidence regions (CRs) for quantiles based on independent realizations of a simulation response. The methodology uses a combination of conditional Monte Carlo (CMC) and the generalized likelihood ratio (GLR) method. While batching and sectioning methods partition the sample into nonoverlapping batches, and construct CIs and CRs by estimating the asymptotic variance using sample quantiles from each batch, the proposed techniques directly estimate the underlying probability density function of the response. Numerical results show that the CIs constructed by applying CMC, GLR, and sectioning lead to comparable coverage results, which are closer to the targets compared with batching alone for relatively small samples; and the coverage rates of the CRs constructed by applying CMC and GLR are closer to the targets than both sectioning and batching when the sample size is relatively small and the number of probability levels is relatively large.
使用条件蒙特卡罗和广义似然比的分位数置信区间和区域
本文基于模拟响应的独立实现,开发了分位数的置信区间(ci)和置信区域(cr)。该方法结合了条件蒙特卡罗(CMC)和广义似然比(GLR)方法。批处理和切片方法将样本划分为不重叠的批次,并通过使用每个批次的样本分位数估计渐近方差来构建ci和cr,而所提出的技术直接估计响应的潜在概率密度函数。数值结果表明,在相对较小的样本中,应用CMC、GLR和切片构建的ci的覆盖结果与单独使用批处理相比更接近目标;在样本量较小、概率层次数量较多的情况下,应用CMC和GLR构建的cr的覆盖率比分段和分批构建的cr更接近目标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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