Planeamento

Aulas

1. Introduction to Value at Risk (VaR)

1

- Definition and attractive features

1. Introduction to Value at Risk (VaR) (continued)

2

- Total vs. Risk Factor VaR
- Decomposition: Systematic and Specific VaR, Stand-alone VaR, Marginal and Incremental VaR
- Associated risk metrics and coherence
- Introduction to VaR models: Normal Linear VaR, Historical Simulation and Monte Carlo Simulation

2. Parametric Linear VaR models

3

- Foundations of Normal Linear VaR: Normal Linear VaR formula, Static vs. Dynamic VaR, scaling for different risk horizons, adjusting for autocorrelation, Stand-alone, Marginal and Incremental VaR

2. Parametric Linear VaR models (continued)

4

- Normal Linear VaR for stock portfolios: Systematic and Specific VaR, estimation of Specific VaR, Systematic VaR decomposition

2. Parametric Linear VaR models (continued)

5

- Portfolio mapping: risk factors and risk factor sensitivities and cash-flow mapping

2. Parametric Linear VaR models (continued)

6

- Portfolio mapping: risk factors and risk factor sensitivities and cash-flow mapping

2. Parametric Linear VaR models (continued)

7

- Portfolio mapping: risk factors and risk factor sensitivities and cash-flow mapping
- Normal Linear VaR for cash-flow maps
- Exponentially Weighted Moving Average estimation of covariance matrices

2. Parametric Linear VaR models (continued)

8

- Exercises

2. Parametric Linear VaR models (continued)

9

- Non-Normal Linear VaR: student t and mixture distributions

3. Historical Simulation

10

- Standard historical VaR: definition, choice of sample size and data frequency, scaling historical VaR assuming stable distributions

3. Historical Simulation (continued)

11

- Improving the sensitivity of historical VaR to changing market conditions: volatility adjustment of returns and filtered historical simulation

3. Historical Simulation (continued)

12

- Improving the precision of historical VaR at extreme quantiles
- Historical VaR for linear portfolios: volatility adjustment and estimation of specific VaR for a stock portfolio, marginal historical VaR

4. Monte Carlo VaR

13

- Introduction and random number generation
- Modeling dynamic properties in risk factor returns: multi-step vs. one-step Monte Carlo VaR, volatility clustering and mean reversion

4. Monte Carlo VaR (continued)

14

- Modeling risk factor dependence: multivariate normal, multivariate normal mixture
- Exercises

5. Quantile Regression VaR Estimation

15

- Introduction to quantile regressions
- Estimation of VaR by quantile regression

6. Risk model risk

16

- Backtesting: exceedance rates, unconditional and conditional coverage tests, independence tests, regression based tests, bias statistics for normal linear VaR, distribution forecasts

6. Risk model risk

17

- Backtesting: exceedance rates, unconditional and conditional coverage tests, independence tests, regression based tests, bias statistics for normal linear VaR, distribution forecasts

7. Scenario analysis and stress testing

18

- Scenarios on financial risk factors: single case vs. distribution scenarios, historical vs. hypothetical scenarios
- Stress testing: stressed covariance matrices, generating hypothetical covariance matrices, stress tests based on principal components analysis

8. Capital allocation

19

- Minimum market risk capital requirements for banks: Basel accords, internal models, standardized rules

8. Capital allocation

20

- Economic capital allocation: measurement of economic capital, RORAC, RAROC