Advanced Risk Management I Lecture 7. Example In applications one typically takes one year of data and a 1% confidence interval If we assume to count.

Slides:



Advertisements
Similar presentations
Copula Representation of Joint Risk Driver Distribution
Advertisements

Chapter 25 Risk Assessment. Introduction Risk assessment is the evaluation of distributions of outcomes, with a focus on the worse that might happen.
Copyright (c) 2004 Brooks/Cole, a division of Thomson Learning, Inc. Chapter 9 Inferences Based on Two Samples.
COMM 472: Quantitative Analysis of Financial Decisions
A. The Basic Principle We consider the multivariate extension of multiple linear regression – modeling the relationship between m responses Y 1,…,Y m and.
Component Analysis (Review)
Lecture XXIII.  In general there are two kinds of hypotheses: one concerns the form of the probability distribution (i.e. is the random variable normally.
1 The improper use of risk management: three issues for a new agenda Francesco Betti Head of Risk, Accounting & Financial Controls Aletti Gestielle SGR.
CmpE 104 SOFTWARE STATISTICAL TOOLS & METHODS MEASURING & ESTIMATING SOFTWARE SIZE AND RESOURCE & SCHEDULE ESTIMATING.
XIV International Conference on Economic and Social Development, 2-5 April 2013, Moscow A new copula approach for high-dimensional real world portfolios.
1 1 Alternative Risk Measures for Alternative Investments Alternative Risk Measures for Alternative Investments Evry April 2004 A. Chabaane BNP Paribas.
Chapter 21 Value at Risk Options, Futures, and Other Derivatives, 8th Edition, Copyright © John C. Hull 2012.
Portfolio Diversity and Robustness. TOC  Markowitz Model  Diversification  Robustness Random returns Random covariance  Extensions  Conclusion.
TK 6413 / TK 5413 : ISLAMIC RISK MANAGEMENT TOPIC 6A: VALUE AT RISK (VaR) (EXTENSION) 1.
VAR.
Chapter 21 Value at Risk Options, Futures, and Other Derivatives, 8th Edition, Copyright © John C. Hull 2012.
Chap 9: Testing Hypotheses & Assessing Goodness of Fit Section 9.1: INTRODUCTION In section 8.2, we fitted a Poisson dist’n to counts. This chapter will.
Introduction Data and simula- tion methodology VaR models and estimation results Estimation perfor- mance analysis Conclusions Appendix Doctoral School.
Ch.7 The Capital Asset Pricing Model: Another View About Risk
L18: CAPM1 Lecture 18: Testing CAPM The following topics will be covered: Time Series Tests –Sharpe (1964)/Litner (1965) version –Black (1972) version.
© 2010 Pearson Prentice Hall. All rights reserved Least Squares Regression Models.
Maximum likelihood (ML) and likelihood ratio (LR) test
CF-3 Bank Hapoalim Jun-2001 Zvi Wiener Computational Finance.
QA-2 FRM-GARP Sep-2001 Zvi Wiener Quantitative Analysis 2.
FRM Zvi Wiener Following P. Jorion, Financial Risk Manager Handbook Financial Risk Management.
Probability theory 2011 The multivariate normal distribution  Characterizing properties of the univariate normal distribution  Different definitions.
Value at Risk (VAR) VAR is the maximum loss over a target
Chapter 11 Multiple Regression.
Multivariate Regression Model y =    x1 +  x2 +  x3 +… +  The OLS estimates b 0,b 1,b 2, b 3.. …. are sample statistics used to estimate 
Linear and generalised linear models
Linear and generalised linear models
Separate multivariate observations
Today Wrap up of probability Vectors, Matrices. Calculus
Lecture 5 Correlation and Regression
Options, Futures, and Other Derivatives 6 th Edition, Copyright © John C. Hull Chapter 18 Value at Risk.
Lecture 7: Simulations.
Advanced Risk Management I Lecture 6 Non-linear portfolios.
FRM Zvi Wiener Following P. Jorion, Financial Risk Manager Handbook Financial Risk Management.
Alternative Measures of Risk. The Optimal Risk Measure Desirable Properties for Risk Measure A risk measure maps the whole distribution of one dollar.
STOCHASTIC DOMINANCE APPROACH TO PORTFOLIO OPTIMIZATION Nesrin Alptekin Anadolu University, TURKEY.
Advanced Risk Management I Lecture 5 Value at Risk & co.
Financial Products and Markets Lecture 7. Risk measurement The key problem for the construction of a risk measurement system is then the joint distribution.
LECTURE 22 VAR 1. Methods of calculating VAR (Cont.) Correlation method is conceptually simple and easy to apply; it only requires the mean returns and.
Statistical Decision Making. Almost all problems in statistics can be formulated as a problem of making a decision. That is given some data observed from.
Elements of Financial Risk Management Second Edition © 2012 by Peter Christoffersen 1 Distributions and Copulas for Integrated Risk Management Elements.
1 Value at Risk Chapter The Question Being Asked in VaR “What loss level is such that we are X % confident it will not be exceeded in N business.
Fundamentals of Futures and Options Markets, 5 th Edition, Copyright © John C. Hull Value at Risk Chapter 18.
Advanced Risk Management I Lecture 2. Cash flow analysis and mapping Securities in a portfolio are collected and analyzed one by one. Bonds are decomposed.
Value at Risk Chapter 16. The Question Being Asked in VaR “What loss level is such that we are X % confident it will not be exceeded in N business days?”
Market Risk VaR: Historical Simulation Approach N. Gershun.
Elements of Financial Risk Management Second Edition © 2012 by Peter Christoffersen 1 Simulating the Term Structure of Risk Elements of Financial Risk.
1 A non-Parametric Measure of Expected Shortfall (ES) By Kostas Giannopoulos UAE University.
Measurement of Market Risk. Market Risk Directional risk Relative value risk Price risk Liquidity risk Type of measurements –scenario analysis –statistical.
Generalised method of moments approach to testing the CAPM Nimesh Mistry Filipp Levin.
Lecture 3: Statistics Review I Date: 9/3/02  Distributions  Likelihood  Hypothesis tests.
Bootstrap Event Study Tests Peter Westfall ISQS Dept. Joint work with Scott Hein, Finance.
 Measures the potential loss in value of a risky asset or portfolio over a defined period for a given confidence interval  For example: ◦ If the VaR.
Value at Risk Chapter 20 Options, Futures, and Other Derivatives, 7th International Edition, Copyright © John C. Hull 2008.
Brief Review Probability and Statistics. Probability distributions Continuous distributions.
Statistical Inference Statistical inference is concerned with the use of sample data to make inferences about unknown population parameters. For example,
OPTIONS PRICING AND HEDGING WITH GARCH.THE PRICING KERNEL.HULL AND WHITE.THE PLUG-IN ESTIMATOR AND GARCH GAMMA.ENGLE-MUSTAFA – IMPLIED GARCH.DUAN AND EXTENSIONS.ENGLE.
1 Ka-fu Wong University of Hong Kong A Brief Review of Probability, Statistics, and Regression for Forecasting.
Statistical Decision Making. Almost all problems in statistics can be formulated as a problem of making a decision. That is given some data observed from.
5. Volatility, sensitivity and VaR
Market-Risk Measurement
3. The X and Y samples are independent of one another.
Theory of Capital Markets
CH 5: Multivariate Methods
Chapter 12 Inference on the Least-squares Regression Line; ANOVA
Advanced Risk Management I
Presentation transcript:

Advanced Risk Management I Lecture 7

Example In applications one typically takes one year of data and a 1% confidence interval If we assume to count 4 excess losses in one year, Since the value of the chi-square distribution with one degree of freedom is , the hypothesis of accuracy of the VaR measure is not rejected ( p- value of 0.77 è 38,02%).

Christoffersen extension A flaw of Kupiec test isnbased on the hypothesis of independent excess losses. Christoffersen proposed an extension taking into account serial dependence. It is a joint test of the two hypotheses. The joint test may be written as LR cc = LR un + LR ind where LR un is the unconditional test and LR ind is that of indipendence. It is distributed as a chis- square with 2 degrees of freedom.

Value-at-Risk criticisms The issue of coherent risk measures (aximoatic approach to risk measures) Alternative techniques (or complementary): expected shorfall, stress testing. Liquidity risk

Coherent risk measures In 1999 Artzner, Delbaen-Eber-Heath addressed the following problems “Which features must a risk measure have to be considered well defined?” Risk measure axioms:  Positive homogeneity:  ( X) = (X)  Translation invariance:  (X +  ) =  (X) –   Subadditivity:  (X 1 + X 2 )   (X 1 ) +  (X 2 )

Convex risk measures The hypothesis of positive homogeneity has been criticized on the grounds that market illiquidity may imply that the risk increases with the dimension of the position For this reason, under the theory of convex risk measures, the axioms of positive homogeneity and sub-additivity were substituted with that of convexity  ( X 1 + (1 – ) X 2 )   (X 1 ) + (1 – )  (X 2 )

Discussion It is diversification a property of the measure? VaR is not sub-additive. Does it mean that information in a super-additive measure is irrelevant? Assume that one merges two businesses for which VaR is not sub-additive. He uses a measure that is sub-additive by definition. Does he lose some information that may be useful for his choice?

Expected shortfall Value-at-Risk is the quantile corresponding to a probability level. Critiques: –VaR does not give any information on the shape of the distribution of losses in the tail –VaR of two businesses can be super-additive (merging two businesses, the VaR of the aggregated business may increase –In general, the problem of finding the optimal portfolio with VaR constraint is extremely complex.

Expected shortfall Expected shortfall is the expected loss beyond the VaR level. Notice however that, like VaR, the measure is referred to the distribution of losses. Expected shortfall is replacing VaR in many applications, and it is also substituting VaR in regulation (Base III). Consider a position X, the extected shortfall is defined as ES = E(X: X  VaR)

Expected shortfall: pros and cons Pros: i) it is a measure of the shape of the distribution: ii) it is sub-additive, iii) it is easily used as a constraint for portfolio optimization Cons: does not give information on the fact that merging two businesses may increase the probability of default.

Stress testing Stress testing techniques allow to evaluate the riskiness of the position to specific events The choice can be made –Collecting infotmation on particular events or market situations –Using implied expectations in financial instruments, i.e. futures, options, etc… Scenario construction must be consistent with the correlation structure of data

Stress testing How to generate consistent scenarios Cholesky decomposition –The shock assumed on a given market and/or bucket propagates to others via the Cholesky matrix Black and Litterman –The scenario selected for a given market and/or bucket is weighted and merged with historical info by a Bayesian technique.

Multivariate Normal Variables Cholesky Decomposition –Denote with X a vector of independent random variables each one of which is ditributed acccording to a standard normal, so that the variance- covariance matrix of X is the n  n identity matrix Assume one wants to use these variables to generate a second set of variables, that will be denoted Y, that will be correlated with variance-covariance matrix given . –The new system of random variables can be found as linear combination of the independent variables –The problem is reduced to determining a matrix A of dimension n  n such that

Cholescky Decomposition –The solution of the previous problem is not unique meaning that there exost many matrices A that, multiplied by their transposed, give  as a result. If matrix  is positive definite, the most efficient method to solve the problem consists in Cholescky decomposition. Multivariate Normal Variables –The key point consists in looking for A in the shape of a lower triangular matrix.

Cholesky Decomposition –It may be verified that the elements of A can be recoverd by a set of iterative formulas –In the simple two-variable case we have Multivariate Normal Variables

Black and Litterman The technique proposed in Black and Litterman and largely used in asset management can be used to make the scenarios consistent. Information sources –Historical (time series of prices) –Implied (cross-section info from derivatives) –Private (produced “in house”)

Views Assume that “in house” someone proposes a “view” on the performance of market 1 and a “view” on that of market 3 with respect to market 2. Both “views” have error margins  i with covariance matrix  e 1 ' r = q 1 +  1 e 3 ' r - e 2 ' r = q 2 +  2 The dynamics of percentage price changes r must be “condizioned” on views “view” q i.

Conditioning scenarios to “views” Let us report the “views” in matrixform and compute the joint distribution ~

Conditional distribution The conditional distribution of r with respect to q is then and noticed that this may be interpreted as a GLS regression model (generalised least squares)

Esempio: costruzione di uno scenario Assumiamo di costruire uno scenario sulla curva dei tassi a 1, 10 e 30 anni. I valori di media, deviazione standard e correlazione sono dati da

A shock to the term structure

Stress testing analysis (1) The short rate increases to 6% (0.1% sd)

Stress testing analysis (1) The short rate increases to 6%(1% sd)