独立负二项随机变量和分布的计算

IF 1.9 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Mathematical & Computational Applications Pub Date : 2023-04-28 DOI:10.3390/mca28030063

M. Girondot, J. Barry

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引用次数: 0

摘要

负二项随机变量和的分布在保险数学、精算科学和生态学中具有特殊的作用。估计这种分布的两种方法已经发表:有限和精确表达式和卷积级数表达式。我们比较了这两种方法，以及一种新的归一化鞍点近似，以及正态和单分布负二项近似。我们表明，当随机变量的数量很高时，精确的序列表达式使用了大量的内存(>7)。标准化鞍点近似给出的输出具有较高的相对误差(约3-5%)，这在某些情况下可能是一个问题。考虑到所使用的内存量、计算时间和估计的精度，卷积方法对于应用实践者来说是一个很好的折衷方案。然而，由于收敛速度的非单调性，该算法的简单实现可能会产生不正确的结果。必须根据估计的期望数量级来选择公差极限，对此我们使用了鞍点近似生成的答案。最后，不应该使用正态和负二项近似，因为它们产生的输出精度非常低。

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Computation of the Distribution of the Sum of Independent Negative Binomial Random Variables

The distribution of the sum of negative binomial random variables has a special role in insurance mathematics, actuarial sciences, and ecology. Two methods to estimate this distribution have been published: a finite-sum exact expression and a series expression by convolution. We compare both methods, as well as a new normalized saddlepoint approximation, and normal and single distribution negative binomial approximations. We show that the exact series expression used lots of memory when the number of random variables was high (>7). The normalized saddlepoint approximation gives an output with a high relative error (around 3–5%), which can be a problem in some situations. The convolution method is a good compromise for applied practitioners, considering the amount of memory used, the computing time, and the precision of the estimates. However, a simplistic implementation of the algorithm could produce incorrect results due to the non-monotony of the convergence rate. The tolerance limit must be chosen depending on the expected magnitude order of the estimate, for which we used the answer generated by the saddlepoint approximation. Finally, the normal and negative binomial approximations should not be used, as they produced outputs with a very low accuracy.

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来源期刊

Mathematical & Computational Applications MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

自引率

10.50%

发文量

审稿时长

12 weeks

期刊介绍： Mathematical and Computational Applications (MCA) is devoted to original research in the field of engineering, natural sciences or social sciences where mathematical and/or computational techniques are necessary for solving specific problems. The aim of the journal is to provide a medium by which a wide range of experience can be exchanged among researchers from diverse fields such as engineering (electrical, mechanical, civil, industrial, aeronautical, nuclear etc.), natural sciences (physics, mathematics, chemistry, biology etc.) or social sciences (administrative sciences, economics, political sciences etc.). The papers may be theoretical where mathematics is used in a nontrivial way or computational or combination of both. Each paper submitted will be reviewed and only papers of highest quality that contain original ideas and research will be published. Papers containing only experimental techniques and abstract mathematics without any sign of application are discouraged.