A Risk-Oriented Clustering Approach for Asset Categorization and Risk Measurement

Liu, Lu

18 July 2019

When faced with market risk for investments and portfolios, people often calculate the risk measure, which is a real number mapping to each random payoff. There are many ways to quantify the potential risk, among which the most important input is the features from future performance. Future distributions are unknown and thus always estimated from historical Profit and Loss (P&L) distributions. However, past data may not be appropriate for estimating the future; risk measures generated from single historical distributions can be subject to error. To overcome these shortcomings, one natural way implemented is to identify and categorize similar assets whose Profit and Loss distributions can be used as alternative scenarios. In practice, one of the most common and intuitive categorizations is sector, based on industry. It is widely agreed that companies in the same sector share the same, or related, business types and operating characteristics. But in the field of risk management, sector-based categorization does not necessarily mean assets are grouped in terms of their risk profiles, and we show that risk measures in the same sector tend to have large variation. Although improved risk measures related to the distribution ambiguity has been discussed at length, we seek to develop a more risk-oriented categorization by providing a new clustering approach. Furthermore, our method can better inform us of the potential risk and the extreme worst-case scenario within the same category.

clustering

risk measures

Wasserstein distance

Analysis of Risk Measures and Multi-dimensional Risk Dependence

Liu, Wei

28 July 2008

In this thesis, we try to provide a broad econometric analysis of a class of risk measures, distortion risk measures (DRM). With carefully selected functional form, the Value-at-Risk (VaR) and Tail-VaR (TVaR) are special cases of DRMs. Besides, the DRM also admits interpretation in the sense of non-expected utility type of preferences. We first provide a unified statistical framework for the nonparametric estimators of the DRMs in a univariate case. The asymptotic properties of both the DRMs and their sensitivities with respect to the parameters representing risk aversion and/or pessimism are derived. Moreover, the relationships between the VaR and TVaR are also investigated in detail, which, we hope, can shed new lights on the way passing one risk measure to another. Then, the analysis of DRMs are extended to a multi-dimensional framework, where the DRM is computed for a portfolio consisting of many primitive assets. Analogous to the mean-variance frontier analysis, we study the efficient portfolio frontier when both objective and constraint are replaced by the DRMs. We call this the DRM-DRM framework. Under a nonparametric setting, we propose three asymptotic test statistics for evaluating the efficiency of a given portfolio. Finally, we discuss the criteria used for evaluating models used to forecast the VaRs. More precisely, we propose a criterion which takes into account the loss levels beyond the VaRs.

Risk measures

Nonparametric estimation

0508

Analysis of Risk Measures and Multi-dimensional Risk Dependence

Liu, Wei

28 July 2008

In this thesis, we try to provide a broad econometric analysis of a class of risk measures, distortion risk measures (DRM). With carefully selected functional form, the Value-at-Risk (VaR) and Tail-VaR (TVaR) are special cases of DRMs. Besides, the DRM also admits interpretation in the sense of non-expected utility type of preferences. We first provide a unified statistical framework for the nonparametric estimators of the DRMs in a univariate case. The asymptotic properties of both the DRMs and their sensitivities with respect to the parameters representing risk aversion and/or pessimism are derived. Moreover, the relationships between the VaR and TVaR are also investigated in detail, which, we hope, can shed new lights on the way passing one risk measure to another. Then, the analysis of DRMs are extended to a multi-dimensional framework, where the DRM is computed for a portfolio consisting of many primitive assets. Analogous to the mean-variance frontier analysis, we study the efficient portfolio frontier when both objective and constraint are replaced by the DRMs. We call this the DRM-DRM framework. Under a nonparametric setting, we propose three asymptotic test statistics for evaluating the efficiency of a given portfolio. Finally, we discuss the criteria used for evaluating models used to forecast the VaRs. More precisely, we propose a criterion which takes into account the loss levels beyond the VaRs.

Risk measures

Nonparametric estimation

0508

Coherent Distortion Risk Measures in Portfolio Selection

Feng, Ming Bin

January 2011

The theme of this thesis relates to solving the optimal portfolio selection problems using linear programming. There are two key contributions in this thesis. The first contribution is to generalize the well-known linear optimization framework of Conditional Value-at-Risk (CVaR)-based portfolio selection problems (see Rockafellar and Uryasev (2000, 2002)) to more general risk measure portfolio selection problems. In particular, the class of risk measure under consideration is called the Coherent Distortion Risk Measure (CDRM) and is the intersection of two well-known classes of risk measures in the literature: the Coherent Risk Measure (CRM) and the Distortion Risk Measure (DRM). In addition to CVaR, other risk measures which belong to CDRM include the Wang Transform (WT) measure, Proportional Hazard (PH) transform measure, and lookback (LB) distortion measure. Our generalization implies that the portfolio selection problems can be solved very efficiently using the linear programming approach and over a much wider class of risk measures. The second contribution of the thesis is to establish the equivalences among four formulations of CDRM optimization problems: the return maximization subject to CDRM constraint, the CDRM minimization subject to return constraint, the return-CDRM utility maximization, the CDRM-based Sharpe Ratio maximization. Equivalences among these four formulations are established in a sense that they produce the same efficient frontier when varying the parameters in their corresponding problems. We point out that the first three formulations have already been investigated in Krokhmal et al. (2002) with milder assumptions on risk measures (convex functional of portfolio weights). Here we apply their results to CDRM and establish the fourth equivalence. For every one of these formulations, the relationship between its given parameter and the implied parameters for the other three formulations is explored. Such equivalences and relationships can help verifying consistencies (or inconsistencies) for risk management with different objectives and constraints. They are also helpful for uncovering the implied information of a decision making process or of a given investment market. We conclude the thesis by conducting two case studies to illustrate the methodologies and implementations of our linear optimization approach, to verify the equivalences among four different problem formulations, and to investigate the properties of different members of CDRM. In addition, the efficiency (or inefficiency) of the so-called 1/n portfolio strategy in terms of the trade off between portfolio return and portfolio CDRM. The properties of optimal portfolios and their returns with respect to different CDRM minimization problems are compared through their numerical results.

Coherent risk measures

Distortion risk measures

Portfolio selection

Coherent distortion risk measures

Linear programming

Linear fractional programming

Actuarial Science

Coherent Distortion Risk Measures in Portfolio Selection

Feng, Ming Bin

January 2011

The theme of this thesis relates to solving the optimal portfolio selection problems using linear programming. There are two key contributions in this thesis. The first contribution is to generalize the well-known linear optimization framework of Conditional Value-at-Risk (CVaR)-based portfolio selection problems (see Rockafellar and Uryasev (2000, 2002)) to more general risk measure portfolio selection problems. In particular, the class of risk measure under consideration is called the Coherent Distortion Risk Measure (CDRM) and is the intersection of two well-known classes of risk measures in the literature: the Coherent Risk Measure (CRM) and the Distortion Risk Measure (DRM). In addition to CVaR, other risk measures which belong to CDRM include the Wang Transform (WT) measure, Proportional Hazard (PH) transform measure, and lookback (LB) distortion measure. Our generalization implies that the portfolio selection problems can be solved very efficiently using the linear programming approach and over a much wider class of risk measures. The second contribution of the thesis is to establish the equivalences among four formulations of CDRM optimization problems: the return maximization subject to CDRM constraint, the CDRM minimization subject to return constraint, the return-CDRM utility maximization, the CDRM-based Sharpe Ratio maximization. Equivalences among these four formulations are established in a sense that they produce the same efficient frontier when varying the parameters in their corresponding problems. We point out that the first three formulations have already been investigated in Krokhmal et al. (2002) with milder assumptions on risk measures (convex functional of portfolio weights). Here we apply their results to CDRM and establish the fourth equivalence. For every one of these formulations, the relationship between its given parameter and the implied parameters for the other three formulations is explored. Such equivalences and relationships can help verifying consistencies (or inconsistencies) for risk management with different objectives and constraints. They are also helpful for uncovering the implied information of a decision making process or of a given investment market. We conclude the thesis by conducting two case studies to illustrate the methodologies and implementations of our linear optimization approach, to verify the equivalences among four different problem formulations, and to investigate the properties of different members of CDRM. In addition, the efficiency (or inefficiency) of the so-called 1/n portfolio strategy in terms of the trade off between portfolio return and portfolio CDRM. The properties of optimal portfolios and their returns with respect to different CDRM minimization problems are compared through their numerical results.

Coherent risk measures

Distortion risk measures

Portfolio selection

Coherent distortion risk measures

Linear programming

Linear fractional programming

Actuarial Science

Terrorism and market risk assessment

Lacroix, Jean

January 2015

Charles University in Prague Faculty of Social Sciences Institute of Economic Studies Bibliographic Record of a an Academic Thesis Title in the language of the thesis (as recorded in SIS) Terrorism and market risk assessment Subtitle Translation of the title into English/Czech (as recorded in SIS) Terrorism and market risk assessment Type of the Thesis Master's thesis Author: Bc. Jean Lacroix Year 2015 Advisor of the thesis Mgr Magdalena Patakova Number of pages 77 Awards Specialization Economics (CFS) Abstract in Czech Abstract in English Terrorist attacks are one of the best examples of fast evolving institutional framework. In that context investors are impacted by a lot of pieces of information in a limited period of time. This disturbs the trading behavior and consequently the distribution of returns on the period following the attack (the information was not predicted and directly affects the investment choices). The present thesis focuses on the risk aspect of such disturbances. If terrorist attacks reshape the distribution of returns, it may modify the risk measures (multivariate and univariate). The particularity of the change in distribution implies that the observed translation into financial measures of risk will not be equal among all indicators. First a distinction exists between univariate...

Asymptotics for Risk Measures of Extreme Risks

Yang, Fan

01 July 2013

This thesis focuses on measuring extreme risks in insurance business. We mainly use extreme value theory to develop asymptotics for risk measures. We also study the characterization of upper comonotonicity for multiple extreme risks. Firstly, we conduct asymptotics for the Haezendonck--Goovaerts (HG) risk measure of extreme risks at high confidence levels, which serves as an alternative way to statistical simulations. We split the study of this problem into two steps. In the first step, we concentrate on the HG risk measure with a power Young function, which yields certain explicitness. Then we derive asymptotics for a risk variable with a distribution function that belongs to one of the three max-domains of attraction separately. We extend our asymptotic study to the HG risk measure with a general Young function in the second step. We study this problem using different approaches and overcome a lot of technical difficulties. The risk variable is assumed to follow a distribution function that belongs to the max-domain of attraction of the generalized extreme value distribution and we show a unified proof for all three max-domains of attraction. Secondly, we study the first- and second-order asymptotics for the tail distortion risk measure of extreme risks. Similarly as in the first part, we develop the first-order asymptotics for the tail distortion risk measure of a risk variable that follows a distribution function belonging to the max-domain of attraction of the generalized extreme value distribution. In order to improve the accuracy of the first-order asymptotics, we further develop the second-order asymptotics for the tail distortion risk measure. Numerical examples are carried out to show the accuracy of both asymptotics and the great improvements of the second-order asymptotics. Lastly, we characterize the upper comonotonicity via tail convex order. For any given marginal distributions, a maximal random vector with respect to tail convex order is proved to be upper comonotonic under suitable conditions. As an application, we consider the computation of the HG risk measure of the sum of upper comonotonic random variables with exponential marginal distributions. The methodology developed in this thesis is expected to work with the same efficiency for generalized quantiles (such as expectile, Lp-quantiles, ML-quantiles and Orlicz quantiles), quantile based risk measures or risk measures which focus on the tail areas, and also work well on capital allocation problems.

Asymptotics

Extreme Risks

Risk Measures

Applied Mathematics

Comparative Study Of Risk Measures

Eksi, Zehra

01 August 2005

There is a little doubt that, for a decade, risk measurement has become one of the most important topics in finance. Indeed, it is natural to observe such a development, since in the last ten years, huge amounts of financial transactions ended with severe losses due to severe convulsions in financial markets. Value at risk, as the most widely used risk measure, fails to quantify the risk of a position accurately in many situations. For this reason a number of consistent risk measures have been introduced in the literature. The main aim of this study is to present and compare coherent, convex, conditional convex and some other risk measures both in theoretical and practical settings.

HG Finance 1-9999

Um estudo sobre funções de dependência e medidas de risco / A study on dependence functions and risk measures.

Gonçalves, Marcelo

28 November 2008

Começamos por estudar fronteiras para uma classe especial de medidas de risco quantis, chamadas medidas de risco distorcidas. A hipótese básica é que o conhecimento da estrutura de dependência (ou seja, da distribuição conjunta) da carteira de riscos é incompleta, fazendo com que não seja possível obter um valor exato para tais medidas. Isso é muito comum na prática. Fornecemos duas formas de obter tais limites nessa situação, apresentando seus prós e contras. A modelagem de risco, em um cenário de desconhecimento total ou parcial da distribuição conjunta dos mesmos, geralmente faz uso de cópulas. Entretanto, as cópulas vêm sendo alvo de críticas na literatura recente. Um dos motivos é que as mesmas desprezam o comportamento marginal e comprimem os dados no quadrado unitário. Dentro desse cenário, apresentamos uma função que pode ser vista como uma alternativa e complemento ao uso de cópulas: função de dependência de Sibuya. / We begin our work studying an special class of quantile risk measures, known as distorted risk measures. The basic assumption is that the risk manager does not know the complete dependence structure (that is, the risks\'s joint distribution) embedded in the risk\'s portfolio, what makes the exact computation of the risk measure an impossible task. This is a common scenario in practical problems. We present two approaches to compute bounds for the distorted risk measures in such situation, underlining the pros and cons of each one. In risk modeling, in the absence of complete knowledge regarding their joint distribution, one often relies on the copula function approach. However, copulas have been criticized in recent publications mostly because it ignores the marginal behavior and smash the data into the unity square. In order to overcome such problems we present and alternative and complement to the copula approach: the Sibuya dependence function.

copulas

Cópulas e Dependência

dependence

Medidas de Risco

risk measures

Um estudo sobre funções de dependência e medidas de risco / A study on dependence functions and risk measures.

Marcelo Gonçalves

28 November 2008

Começamos por estudar fronteiras para uma classe especial de medidas de risco quantis, chamadas medidas de risco distorcidas. A hipótese básica é que o conhecimento da estrutura de dependência (ou seja, da distribuição conjunta) da carteira de riscos é incompleta, fazendo com que não seja possível obter um valor exato para tais medidas. Isso é muito comum na prática. Fornecemos duas formas de obter tais limites nessa situação, apresentando seus prós e contras. A modelagem de risco, em um cenário de desconhecimento total ou parcial da distribuição conjunta dos mesmos, geralmente faz uso de cópulas. Entretanto, as cópulas vêm sendo alvo de críticas na literatura recente. Um dos motivos é que as mesmas desprezam o comportamento marginal e comprimem os dados no quadrado unitário. Dentro desse cenário, apresentamos uma função que pode ser vista como uma alternativa e complemento ao uso de cópulas: função de dependência de Sibuya. / We begin our work studying an special class of quantile risk measures, known as distorted risk measures. The basic assumption is that the risk manager does not know the complete dependence structure (that is, the risks\'s joint distribution) embedded in the risk\'s portfolio, what makes the exact computation of the risk measure an impossible task. This is a common scenario in practical problems. We present two approaches to compute bounds for the distorted risk measures in such situation, underlining the pros and cons of each one. In risk modeling, in the absence of complete knowledge regarding their joint distribution, one often relies on the copula function approach. However, copulas have been criticized in recent publications mostly because it ignores the marginal behavior and smash the data into the unity square. In order to overcome such problems we present and alternative and complement to the copula approach: the Sibuya dependence function.

Cópulas e Dependência

Medidas de Risco

copulas

dependence

risk measures