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论文

Pareto分布下损失分布法度量误差变动规律

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  • 1. 西南财经大学中国金融研究中心, 四川 成都 611130;
    2. 西南财经大学公共管理学院, 四川 成都 611130;
    3. 上海财经大学国际工商管理学院, 上海 200433;
    4. 湖南省委党校经济学部, 湖南 长沙 410006

收稿日期: 2016-02-01

  修回日期: 2017-04-17

  网络出版日期: 2018-01-31

基金资助

国家自然科学基金资助项目(71171167,71501117,71671144,71373213,71301130);教育部项目(16YJA790038,13YJC790024);国家社科基金重大项目资助项目(13&ZD030)

Change Rule of Loss Distribution Approach's Measurement Error under the Pareto Distribution

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  • 1. Chinese Finance Research Institute of SWUFE, Chengdu 610074,China;
    2. The School of Public Administration of SWUFE, Chengdu 611130,China;
    3. School of International Business Administration, SHUFE, Shanghai 200433,China;
    4. Hunan provincial Party School Department of Economics, Changsha 410006,China

Received date: 2016-02-01

  Revised date: 2017-04-17

  Online published: 2018-01-31

摘要

重尾分布非预期损失估计值具有不可忽视的不确定性,为此,本文以操作风险度量为例,在Pareto分布下研究损失分布法度量误差变动规律后发现:随着监管资本变动,度量误差变动具有非常高的敏感性,这意味着损失分布法度量误差具有不可预测性;在度量误差值域内,存在着多个极值风险状态点,且当操作风险趋近于这些极值状态点时,度量误差会变得非常大(以致趋于无穷大),此时,无法准确评价度量结果的可靠性。被业界和理论界广泛使用的损失分布法存在着重大缺陷。

本文引用格式

莫建明, 吕刚, 高翔, 卿树涛 . Pareto分布下损失分布法度量误差变动规律[J]. 中国管理科学, 2017 , 25(11) : 134 -142 . DOI: 10.16381/j.cnki.issn1003-207x.2017.11.014

Abstract

According to the extreme value statistical theory, unexpected loss estimation in a heavy-tailed distribution objectively has uncertainty that cannot be neglected in a high confidence level. Existing empirical research shows that the operating loss intensity distribution has a significant heavy-tailed quality. Therefore, under the loss distribution approach, namely in the composite distribution compounded of heavy-tailed operating loss intensity distribution and loss frequency distribution, the regulatory capital of operational risk is in great uncertainty that cannot be neglected. The uncertainty of regulatory capital is mainly from model error and measurement error. In the existing theory, the model biases are unpredictable, and only the model parameter estimation error caused by the measurement error can be predicted. Therefore, in the condition of fixing measurement model and the model deviation is invariable, only the measurement error changes.
Theoretical research shows that only Pareto distribution is heavy-tailed distribution in the generalized Pareto distribution. Therefore, the operational risk measurement is taken for example in this paper. After measuring error variation by loss distribution approach in Pareto distribution, it is found:As the operational risk increases and the regulatory capital increases progressively, and under the influence of characteristics parameters of loss intensity distribution, the measurement error increases. Under the influence of frequency parameters, when the shape parameter is greater than 1, the measurement error increases. However, when the shape parameter is less than 1, the measurement error trend line has multiple extreme points. Furthermore, according to the fitting results of operating loss frequency distribution and loss intensity distribution using the Basel committee operating loss data samples, they can verify the validity of the proposed theoretical model in this paper.
Thus' it can be seen that with the changes in regulatory capital, the measurement error changes in high sensitivity, and this means that the measurement error of regulatory capital is unpredictable. Within the range of measurement error, there exists the extreme points, and in the condition of these extreme risk, the measurement error becomes very large (tends to infinity) in relative to the regulatory capital. At this moment, the reliability of the measurement results cannot be accurately evaluated. Obviously, when loss intensity distribution is a heavy-tail distribution, the measurement results may appear serious faults with the loss distribution approach in a high confidence level. Furthermore, the regularity of error variation measured by loss distribution approach when the loss intensity has a significant heavy tail and lays a theoretical foundation for applying LDA in heavy-tailed risk measurement is explored.

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