基于期望回归的高条件尾部风险估计

IF 1.7 3区经济学 Q2 ECONOMICS

ASTIN Bulletin Pub Date : 2021-02-15 DOI:10.1017/asb.2021.3

Jie Hu, Yu Chen, Keqi Tan

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引用次数: 2

摘要

在许多应用中，评估非常高或非常低水平的条件尾部风险是人们非常感兴趣的问题。由于高尾的数据稀疏性，广泛使用的分位数回归方法在尾部可能存在高变异性，特别是对于重尾分布。作为分位数回归的一种替代方法，期望回归依赖于非对称12 -范数的最小化，并且比分位数回归对极端损失的大小更敏感。本文提出了一种新的估计高条件尾部风险的方法，该方法首先在回归框架中估计中间条件期望值，然后通过对上阶条件期望值的加权组合来估计潜在的尾部指数。然后，根据对尾巴行为的合理假设，将这些中间条件期望值外推到高尾巴，从而使用所得到的条件尾巴指数估计量作为基础。最后，我们使用这些高条件尾预期来估计替代风险度量，如风险值(VaR)和预期缺口(ES)，两者都在高尾。研究了所提估计量的渐近性质。仿真研究和实际数据分析表明，该方法优于其他方法。

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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ESTIMATION OF HIGH CONDITIONAL TAIL RISK BASED ON EXPECTILE REGRESSION

Abstract Assessing conditional tail risk at very high or low levels is of great interest in numerous applications. Due to data sparsity in high tails, the widely used quantile regression method can suffer from high variability at the tails, especially for heavy-tailed distributions. As an alternative to quantile regression, expectile regression, which relies on the minimization of the asymmetric l2-norm and is more sensitive to the magnitudes of extreme losses than quantile regression, is considered. In this article, we develop a new estimation method for high conditional tail risk by first estimating the intermediate conditional expectiles in regression framework, and then estimating the underlying tail index via weighted combinations of the top order conditional expectiles. The resulting conditional tail index estimators are then used as the basis for extrapolating these intermediate conditional expectiles to high tails based on reasonable assumptions on tail behaviors. Finally, we use these high conditional tail expectiles to estimate alternative risk measures such as the Value at Risk (VaR) and Expected Shortfall (ES), both in high tails. The asymptotic properties of the proposed estimators are investigated. Simulation studies and real data analysis show that the proposed method outperforms alternative approaches.

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来源期刊

ASTIN Bulletin 数学-数学跨学科应用

CiteScore

3.20

自引率

5.30%

发文量

审稿时长

>12 weeks

期刊介绍： ASTIN Bulletin publishes papers that are relevant to any branch of actuarial science and insurance mathematics. Its papers are quantitative and scientific in nature, and draw on theory and methods developed in any branch of the mathematical sciences including actuarial mathematics, statistics, probability, financial mathematics and econometrics.