以伽马密度为激励函数的Hawkes过程框架:在自然灾害保险中的应用。

IF 1 4区 数学 Q3 STATISTICS & PROBABILITY Methodology and Computing in Applied Probability Pub Date : 2022-01-01 DOI:10.1007/s11009-022-09938-1
Laurent Lesage, Madalina Deaconu, Antoine Lejay, Jorge Augusto Meira, Geoffrey Nichil, Radu State
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引用次数: 2

摘要

霍克斯过程是一种时间自激点过程。它们在地震建模或金融领域已经很好地建立起来,而且它们的应用正在向各个领域扩展。文献中的大多数模型在保险的潜在应用方面有两个主要缺陷。首先,他们使用一种指数衰减的激励形式,这种形式不允许在事件的发生和它对过程的激励作用之间有延迟,因此不能很好地适应保险数据。其次,从这些模型中得出的理论结果只有在观察时间趋于无限时才有效,而保险用例的时间范围是几个月或几年。在本文中,我们定义了一个完整的Hawkes过程的框架,该框架使用Gamma密度激励函数(即估计、模拟、拟合优度)代替指数衰减函数,并证明了该过程暂态状态的一些数学性质(即期望、方差)。我们用卢森堡自然灾害的真实保险数据来说明我们的结果。
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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Hawkes Processes Framework With a Gamma Density As Excitation Function: Application to Natural Disasters for Insurance.

Hawkes processes are temporal self-exciting point processes. They are well established in earthquake modelling or finance and their application is spreading to diverse areas. Most models from the literature have two major drawbacks regarding their potential application to insurance. First, they use an exponentially-decaying form of excitation, which does not allow a delay between the occurrence of an event and its excitation effect on the process and does not fit well on insurance data consequently. Second, theoretical results developed from these models are valid only when time of observation tends to infinity, whereas the time horizon for an insurance use case is of several months or years. In this paper, we define a complete framework of Hawkes processes with a Gamma density excitation function (i.e. estimation, simulation, goodness-of-fit) instead of an exponential-decaying function and we demonstrate some mathematical properties (i.e. expectation, variance) about the transient regime of the process. We illustrate our results with real insurance data about natural disasters in Luxembourg.

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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
58
审稿时长
6-12 weeks
期刊介绍: Methodology and Computing in Applied Probability will publish high quality research and review articles in the areas of applied probability that emphasize methodology and computing. Of special interest are articles in important areas of applications that include detailed case studies. Applied probability is a broad research area that is of interest to many scientists in diverse disciplines including: anthropology, biology, communication theory, economics, epidemiology, finance, linguistics, meteorology, operations research, psychology, quality control, reliability theory, sociology and statistics. The following alphabetical listing of topics of interest to the journal is not intended to be exclusive but to demonstrate the editorial policy of attracting papers which represent a broad range of interests: -Algorithms- Approximations- Asymptotic Approximations & Expansions- Combinatorial & Geometric Probability- Communication Networks- Extreme Value Theory- Finance- Image Analysis- Inequalities- Information Theory- Mathematical Physics- Molecular Biology- Monte Carlo Methods- Order Statistics- Queuing Theory- Reliability Theory- Stochastic Processes
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