利用二元拉盖尔级数的有限时间破产概率

IF 1.6 3区 经济学 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Scandinavian Actuarial Journal Pub Date : 2022-07-12 DOI:10.1080/03461238.2022.2089051
Eric C. K. Cheung, Hayden Lau, G. Willmot, J. Woo
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引用次数: 4

摘要

本文重新讨论了经典复合泊松风险模型中的有限时间破产概率问题。有限时间破产问题的传统一般解通常表示为涉及与索赔规模分布及其积分相关的卷积的无限和,通常只能在索赔遵循指数分布或(更一般的)混合Erlang分布的特殊情况下进行评估。我们提出解决有限时间破产概率所满足的偏积分-微分方程,并开发了一种新的方法,以二元拉盖尔级数作为初始盈余水平和时间范围的函数来获得一类大的轻尾索赔分布的解。为了说明我们提出的方法的通用性和准确性,该方法易于实现,提供了索赔金额分布的数值示例,如广义逆高斯分布,威布尔分布和截断正态分布,其中封闭形式的卷积在文献中不可用。
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Finite-time ruin probabilities using bivariate Laguerre series
In this paper, we revisit the finite-time ruin probability in the classical compound Poisson risk model. Traditional general solutions to finite-time ruin problems are usually expressed in terms of infinite sums involving the convolutions related to the claim size distribution and their integrals, which can typically be evaluated only in special cases where the claims follow exponential or (more generally) mixed Erlang distribution. We propose to tackle the partial integro-differential equation satisfied by the finite-time ruin probability and develop a new approach to obtain a solution in terms of bivariate Laguerre series as a function of the initial surplus level and the time horizon for a large class of light-tailed claim distributions. To illustrate the versatility and accuracy of our proposed method which is easy to implement, numerical examples are provided for claim amount distributions such as generalized inverse Gaussian, Weibull and truncated normal where closed-form convolutions are not available in the literature.
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来源期刊
Scandinavian Actuarial Journal
Scandinavian Actuarial Journal MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-STATISTICS & PROBABILITY
CiteScore
3.30
自引率
11.10%
发文量
38
审稿时长
>12 weeks
期刊介绍: Scandinavian Actuarial Journal is a journal for actuarial sciences that deals, in theory and application, with mathematical methods for insurance and related matters. The bounds of actuarial mathematics are determined by the area of application rather than by uniformity of methods and techniques. Therefore, a paper of interest to Scandinavian Actuarial Journal may have its theoretical basis in probability theory, statistics, operations research, numerical analysis, computer science, demography, mathematical economics, or any other area of applied mathematics; the main criterion is that the paper should be of specific relevance to actuarial applications.
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