Estimating the inter-occurrence time distribution from superposed renewal processes

IF 1.5 2区数学 Q2 STATISTICS & PROBABILITY

Bernoulli Pub Date : 2021-11-01 DOI:10.3150/21-BEJ1331

Xiaoyu Li, Z. Ye, C. Tang

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引用次数: 3

Abstract

Superposition of renewal processes is common in practice, and it is challenging to estimate the distribution of the individual inter-occurrence time associated with the renewal process. This is because with only aggregated event history, the link between the observed recurrence times and the respective renewal processes are completely missing, rendering existing theory and methods inapplicable. In this article, we propose a nonparametric procedure to estimate the inter-occurrence time distribution by properly deconvoluting the renewal equation with the empirical renewal function. By carefully controlling the discretization errors and properly handling challenges due to implicit and non-smooth mapping via the renewal equation, our theoretical analysis establishes the consistency and asymptotic normality of the nonparametric estimators. The proposed nonparametric distribution estimators are then utilized for developing theoretically valid and computationally efficient inferences when a parametric family is assumed for the individual renewal process. Comprehensive simulations show that compared with the existing maximum likelihood method, the proposed parametric estimation procedure is much faster, and the proposed estimators are more robust to round-off errors in the observed data.

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从叠加更新过程中估计事件间时间分布

更新过程的叠加在实践中是很常见的，估计与更新过程相关的个体间发生时间的分布具有挑战性。这是因为只有聚合的事件历史，观察到的重复次数和各自的更新过程之间的联系是完全缺失的，使得现有的理论和方法不适用。在本文中，我们提出了一种非参数方法，通过适当地将更新方程与经验更新函数反卷积来估计间发生时间分布。通过对离散化误差的严格控制和对更新方程的隐式和非光滑映射的适当处理，我们的理论分析建立了非参数估计量的相合性和渐近正态性。当假设单个更新过程为参数族时，所提出的非参数分布估计量可用于开发理论上有效且计算效率高的推断。综合仿真结果表明，与现有的极大似然估计方法相比，所提出的参数估计过程更快，并且对观测数据的舍入误差具有更强的鲁棒性。

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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来源期刊

Bernoulli 数学-统计学与概率论

CiteScore

3.40

自引率

0.00%

发文量

116

审稿时长

6-12 weeks

期刊介绍： BERNOULLI is the journal of the Bernoulli Society for Mathematical Statistics and Probability, issued four times per year. The journal provides a comprehensive account of important developments in the fields of statistics and probability, offering an international forum for both theoretical and applied work. BERNOULLI will publish: Papers containing original and significant research contributions: with background, mathematical derivation and discussion of the results in suitable detail and, where appropriate, with discussion of interesting applications in relation to the methodology proposed. Papers of the following two types will also be considered for publication, provided they are judged to enhance the dissemination of research: Review papers which provide an integrated critical survey of some area of probability and statistics and discuss important recent developments. Scholarly written papers on some historical significant aspect of statistics and probability.