Risk Quantization by Magnitude and Propensity

Risk Management eJournal Pub Date : 2021-05-27 DOI:10.2139/ssrn.3854467

O. Faugeras, G. Pagès

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引用次数: 1

Abstract

We propose a novel approach in the assessment of a random risk variable X by introducing magnitude-propensity risk measures (m_X, p_X). This bivariate measure intends to account for the dual aspect of risk, where the magnitudes x of X tell how high are the losses incurred, whereas the probabilities P(X = x) reveal how often one has to expect to suffer such losses. The basic idea is to simultaneously quantify both the severity mX and the propensity pX of the real-valued risk X. This is to be contrasted with traditional univariate risk measures, like VaR or Expected shortfall, which typically conflate both effects.

In its simplest form, (m_X, p _X) is obtained by mass transportation in Wasserstein metric of the law P^X of X to a two-points {0,m_X} discrete distribution with mass p_X at m_X. The approach can also be formulated as a constrained optimal quantization problem.

This allows for an informative comparison of risks on both the magnitude and propensity scales. Several examples illustrate the proposed approach.

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风险量化的大小和倾向

我们提出了一种评估随机风险变量X的新方法，通过引入幅度倾向风险度量(mX, pX)。这种双变量度量旨在解释风险的双重方面，其中x的大小x表明所发生的损失有多高，而概率P(x = x)则表明人们预计遭受此类损失的频率。其基本思想是同时量化实值风险x的严重程度mX和倾向pX。这与传统的单变量风险度量(如VaR或Expected short)形成对比，后者通常将两种效应合并在一起。最简单的形式，(mX, PX)是通过在Wasserstein度规中将PX (X)定律传递到两点{0,mX}离散分布，质量为PX (X)。该方法也可以表述为约束最优量化问题。这允许在量级和倾向尺度上对风险进行翔实的比较。几个例子说明了所建议的方法。

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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Risk Management eJournal

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