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“A bank is a place that will lend you money if you can prove that you don’t need it.”

“A bank is a place that will lend you money if you can prove that you don’t need it.”. Bob Hope. Why New Approaches to Credit Risk Measurement and Management?. Why Now?. Structural Increase in Bankruptcy. Increase in probability of default

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“A bank is a place that will lend you money if you can prove that you don’t need it.”

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  1. “A bank is a place that will lend you money if you can prove that you don’t need it.” Bob Hope Saunders & Cornett, Financial Institutions Management, 4th ed.

  2. Why New Approaches to Credit Risk Measurement and Management? Why Now? Saunders & Cornett, Financial Institutions Management, 4th ed.

  3. Structural Increase in Bankruptcy • Increase in probability of default • High yield default rates: 5.1% (2000), 4.3% (1999, 1.9% (1998). Source: Fitch 3/19/01 • Historical Default Rates: 6.92% (3Q2001), 5.065% (2000), 4.147% (1999), 1998 (1.603%), 1997 (1.252%), 10.273% (1991), 10.14% (1990). Source: Altman • Increase in Loss Given Default (LGD) • First half of 2001 defaulted telecom junk bonds recovered average 12 cents per $1 ($0.25 in 1999-2000) • Only 9 AAA Firms in US: Merck, Bristol-Myers, Squibb, GE, Exxon Mobil, Berkshire Hathaway, AIG, J&J, Pfizer, UPS. Late 70s: 58 firms. Early 90s: 22 firms. Saunders & Cornett, Financial Institutions Management, 4th ed.

  4. Disintermediation • Direct Access to Credit Markets • 20,000 US companies have access to US commercial paper market. • Junk Bonds, Private Placements. • “Winner’s Curse” – Banks make loans to borrowers without access to credit markets. Saunders & Cornett, Financial Institutions Management, 4th ed.

  5. More Competitive Margins • Worsening of the risk-return tradeoff • Interest Margins (Spreads) have declined • Ex: Secondary Loan Market: Largest mutual funds investing in bank loans (Eaton Vance Prime Rate Reserves, Van Kampen Prime Rate Income, Franklin Floating Rate, MSDW Prime Income Trust): 5-year average returns 5.45% and 6/30/00-6/30/01 returns of only 2.67% • Average Quality of Loans have deteriorated • The loan mutual funds have written down loan value Saunders & Cornett, Financial Institutions Management, 4th ed.

  6. The Growth of Off-Balance Sheet Derivatives • Total on-balance sheet assets for all US banks = $5 trillion (Dec. 2000) and for all Euro banks = $13 trillion. • Value of non-government debt & bond markets worldwide = $12 trillion. • Global Derivatives Markets > $84 trillion. • All derivatives have credit exposure. • Credit Derivatives. Saunders & Cornett, Financial Institutions Management, 4th ed.

  7. Declining and Volatile Values of Collateral • Worldwide deflation in real asset prices. • Ex: Japan and Switzerland • Lending based on intangibles – ex. Enron. Saunders & Cornett, Financial Institutions Management, 4th ed.

  8. Technology • Computer Information Technology • Models use Monte Carlo Simulations that are computationally intensive • Databases • Commercial Databases such as Loan Pricing Corporation • ISDA/IIF Survey: internal databases exist to measure credit risk on commercial, retail, mortgage loans. Not emerging market debt. Saunders & Cornett, Financial Institutions Management, 4th ed.

  9. BIS Risk-Based Capital Requirements • BIS I: Introduced risk-based capital using 8% “one size fits all” capital charge. • Market Risk Amendment: Allowed internal models to measure VAR for tradable instruments & portfolio correlations – the “1 bad day in 100” standard. • Proposed New Capital Accord BIS II – Links capital charges to external credit ratings or internal model of credit risk. To be implemented in 2005. Saunders & Cornett, Financial Institutions Management, 4th ed.

  10. Traditional Approaches to Credit Risk Measurement 20 years of modeling history Saunders & Cornett, Financial Institutions Management, 4th ed.

  11. Expert Systems – The 5 Cs • Character – reputation, repayment history • Capital – equity contribution, leverage. • Capacity – Earnings volatility. • Collateral – Seniority, market value & volatility of MV of collateral. • Cycle – Economic conditions. • 1990-91 recession default rates >10%, 1992-1999: < 3% p.a. Altman & Saunders (2001) • Non-monotonic relationship between interest rates & excess returns. Stiglitz-Weiss adverse selection & risk shifting. Saunders & Cornett, Financial Institutions Management, 4th ed.

  12. Problems with Expert Systems • Consistency • Across borrower. “Good” customers are likely to be treated more leniently. “A rolling loan gathers no loss.” • Across expert loan officer. Loan review committees try to set standards, but still may vary. • Dispersion in accuracy across 43 loan officers evaluating 60 loans: accuracy rate ranged from 27-50. Libby (1975), Libby, Trotman & Zimmer (1987). • Subjectivity • What are the optimal weights to assign to each factor? Saunders & Cornett, Financial Institutions Management, 4th ed.

  13. Credit Scoring Models • Linear Probability Model • Logit Model • Probit Model • Discriminant Analysis Model • 97% of banks use to approve credit card applications, 70% for small business lending, but only 8% of small banks (<$5 billion in assets) use for small business loans. Mester (1997). Saunders & Cornett, Financial Institutions Management, 4th ed.

  14. Linear Discriminant Analysis – The Altman Z-Score Model • Z-score (probability of default) is a function of: • Working capital/total assets ratio (1.2) • Retained earnings/assets (1.4) • EBIT/Assets ratio (3.3) • Market Value of Equity/Book Value of Debt (0.6) • Sales/Total Assets (1.0) • Critical Value: 1.81 Saunders & Cornett, Financial Institutions Management, 4th ed.

  15. Problems with Credit Scoring • Assumes linearity. • Based on historical accounting ratios, not market values (with exception of market to book ratio). • Not responsive to changing market conditions. • 56% of the 33 banks that used credit scoring for credit card applications failed to predict loan quality problems. Mester (1998). • Lack of grounding in economic theory. Saunders & Cornett, Financial Institutions Management, 4th ed.

  16. The Option Theoretic Model of Credit Risk Measurement Based on Merton (1974) KMV Proprietary Model Saunders & Cornett, Financial Institutions Management, 4th ed.

  17. The Link Between Loans and Optionality: Merton (1974) • Figure 4.1: Payoff on pure discount bank loan with face value=0B secured by firm asset value. • Firm owners repay loan if asset value (upon loan maturity) exceeds 0B (eg., 0A2). Bank receives full principal + interest payment. • If asset value < 0B then default. Bank receives assets. Saunders & Cornett, Financial Institutions Management, 4th ed.

  18. Using Option Valuation Models to Value Loans • Figure 4.1 loan payoff = Figure 4.2 payoff to the writer of a put option on a stock. • Value of put option on stock = equation (4.1) = f(S, X, r, , ) where S=stock price, X=exercise price, r=risk-free rate, =equity volatility,=time to maturity. Value of default option on risky loan = equation (4.2) = f(A, B, r, A, ) where A=market value of assets, B=face value of debt, r=risk-free rate, A=asset volatility,=time to debt maturity. Saunders & Cornett, Financial Institutions Management, 4th ed.

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  21. Problem with Equation (4.2) • A andAare not observable. • Model equity as a call option on a firm. (Figure 4.3) • Equity valuation = equation (4.3) = E = h(A, A, B, r, ) Need another equation to solve for A andA: E = g(A) Equation (4.4) Can solve for A andA with equations (4.3) and (4.4) to obtain a Distance to Default = (A-B)/A Figure 4.4 Saunders & Cornett, Financial Institutions Management, 4th ed.

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  24. Merton’s Theoretical PD • Assumes assets are normally distributed. • Example: Assets=$100m, Debt=$80m, A=$10m • Distance to Default = (100-80)/10 = 2 std. dev. • There is a 2.5% probability that normally distributed assets increase (fall) by more than 2 standard deviations from mean. So theoretical PD = 2.5%. • But, asset values are not normally distributed. Fat tails and skewed distribution (limited upside gain). Saunders & Cornett, Financial Institutions Management, 4th ed.

  25. Merton’s Bond Valuation Model • B=$100,000, =1 year, =12%, r=5%, leverage ratio (d)=90% • Substituting in Merton’s option valuation expression: • The current market value of the risky loan is $93,866.18 • The required risk premium = 1.33% Saunders & Cornett, Financial Institutions Management, 4th ed.

  26. KMV’s Empirical EDF • Utilize database of historical defaults to calculate empirical PD (called EDF): • Fig. 4.5 Saunders & Cornett, Financial Institutions Management, 4th ed.

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  28. Accuracy of KMV EDFsComparison to External Credit Ratings • Enron (Figure 4.8) • Comdisco (Figure 4.6) • USG Corp. (Figure 4.7) • Power Curve (Figure 4.9): Deny credit to the bottom 20% of all rankings: Type 1 error on KMV EDF = 16%; Type 1 error on S&P/Moody’s obligor-level ratings=22%; Type 1 error on issue-specific rating=35%. Saunders & Cornett, Financial Institutions Management, 4th ed.

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  30. Monthly EDF™ credit measure Agency Rating Saunders & Cornett, Financial Institutions Management, 4th ed.

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  32. Problems with KMV EDF • Not risk-neutral PD: Understates PD since includes an asset expected return > risk-free rate. • Use CAPM to remove risk-adjusted rate of return. Derives risk-neutral EDF (denoted QDF). Bohn (2000). • Static model – assumes that leverage is unchanged. Mueller (2000) and Collin-Dufresne and Goldstein (2001) model leverage changes. • Does not distinguish between different types of debt – seniority, collateral, covenants, convertibility. Leland (1994), Anderson, Sundaresan and Tychon (1996) and Mella-Barral and Perraudin (1997) consider debt renegotiations and other frictions. • Suggests that credit spreads should tend to zero as time to maturity approaches zero. Duffie and Lando (2001) incomplete information model. Zhou (2001) jump diffusion model. Saunders & Cornett, Financial Institutions Management, 4th ed.

  33. Term Structure Derivation of Credit Risk Measures Reduced Form Models: KPMG’s Loan Analysis System and Kamakura’s Risk Manager Saunders & Cornett, Financial Institutions Management, 4th ed.

  34. Estimating PD: An Alternative Approach • Merton’s OPM took a structural approach to modeling default: default occurs when the market value of assets fall below debt value • Reduced form models: Decompose risky debt prices to estimate the stochastic default intensity function. No structural explanation of why default occurs. Saunders & Cornett, Financial Institutions Management, 4th ed.

  35. A Discrete Example:Deriving Risk-Neutral Probabilities of Default • B rated $100 face value, zero-coupon debt security with 1 year until maturity and fixed LGD=100%. Risk-free spot rate = 8% p.a. • Security P = 87.96 = [100(1-PD)]/1.08 Solving (5.1), PD=5% p.a. • Alternatively, 87.96 = 100/(1+y) where y is the risk-adjusted rate of return. Solving (5.2), y=13.69% p.a. • (1+r) = (1-PD)(1+y) or 1.08=(1-.05)(1.1369) Saunders & Cornett, Financial Institutions Management, 4th ed.

  36. Multiyear PD Using Forward Rates • Using the expectations hypothesis, the yield curves in Figure 5.1 can be decomposed: • (1+0y2)2 = (1+0y1)(1+1y1) or 1.162=1.1369(1+1y1) 1y1=18.36% p.a. • (1+0r2)2 = (1+0r1)(1+1r1) or 1.102=1.08(1+1r1) 1r1=12.04% p.a. • One year forward PD=5.34% p.a. from: (1+r) = (1- PD)(1+y) 1.1204=1.1836(1 – PD) • Cumulative PD = 1 – [(1 - PD1)(1 – PD2)] = 1 – [(1-.05)(1-.0534)] = 10.07% Saunders & Cornett, Financial Institutions Management, 4th ed.

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  38. The Loss Intensity Process • Expected Losses (EL) = PD x LGD • If LGD is not fixed at 100% then: (1 + r) = [1 - (PDxLGD)](1 + y) Identification problem: cannot disentangle PD from LGD. Saunders & Cornett, Financial Institutions Management, 4th ed.

  39. Disentangling PD from LGD • Intensity-based models specify stochastic functional form for PD. • Jarrow & Turnbull (1995): Fixed LGD, exponentially distributed default process. • Das & Tufano (1995): LGD proportional to bond values. • Jarrow, Lando & Turnbull (1997): LGD proportional to debt obligations. • Duffie & Singleton (1999): LGD and PD functions of economic conditions • Unal, Madan & Guntay (2001): LGD a function of debt seniority. • Jarrow (2001): LGD determined using equity prices. Saunders & Cornett, Financial Institutions Management, 4th ed.

  40. KPMG’s Loan Analysis System • Uses risk-neutral pricing grid to mark-to-market • Backward recursive iterative solution – Figure 5.2. • Example: Consider a $100 2 year zero coupon loan with LGD=100% and yield curves from Figure 5.1. • Year 1 Node (Figure 5.3): • Valuation at B rating = $84.79 =.94(100/1.1204) + .01(100/1.1204) + .05(0) • Valuation at A rating = $88.95 = .94(100/1.1204) +.0566(100/1.1204) + .0034(0) • Year 0 Node = $74.62 = .94(84.79/1.08) + .01(88.95/1.08) • Calculating a credit spread: 74.62 = 100/[(1.08+CS)(1.1204+CS)] to get CS=5.8% p.a. Saunders & Cornett, Financial Institutions Management, 4th ed.

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  43. Noisy Risky Debt Prices • US corporate bond market is much larger than equity market, but less transparent • Interdealer market not competitive – large spreads and infrequent trading: Saunders, Srinivasan & Walter (2002) • Noisy prices: Hancock & Kwast (2001) • More noise in senior than subordinated issues: Bohn (1999) • In addition to credit spreads, bond yields include: • Liquidity premium • Embedded options • Tax considerations and administrative costs of holding risky debt Saunders & Cornett, Financial Institutions Management, 4th ed.

  44. Mortality Rate Derivation of Credit Risk Measures The Insurance Approach: Mortality Models and the CSFP Credit Risk Plus Model Saunders & Cornett, Financial Institutions Management, 4th ed.

  45. Mortality Analysis • Marginal Mortality Rates = (total value of B-rated bonds defaulting in yr 1 of issue)/(total value of B-rated bonds in yr 1 of issue). • Do for each year of issue. • Weighted Average MMR = MMRi = tMMRt x w where w is the size weight for each year t. Saunders & Cornett, Financial Institutions Management, 4th ed.

  46. Mortality Rates - Table 11.10 • Cumulative Mortality Rates (CMR) are calculated as: • MMRi = 1 – SRi where SRi is the survival rate defined as 1-MMRi in ith year of issue. • CMRT = 1 – (SR1 x SR2 x…x SRT) over the T years of calculation. • Standard deviation = [MMRi(1-MMRi)/n] As the number of bonds in the sample n increases, the standard error falls. Can calculate the number of observations needed to reduce error rate to say std. dev.= .001 • No. of obs. = MMRi(1-MMRi)/2 = (.01)(.99)/(.001)2 = 9,900 Saunders & Cornett, Financial Institutions Management, 4th ed.

  47. CSFP Credit Risk Plus Appendix 11B • Default mode model • CreditMetrics: default probability is discrete (from transition matrix). In CreditRisk +, default is a continuous variable with a probability distribution. • Default probabilities are independent across loans. • Loan portfolio’s default probability follows a Poisson distribution. See Fig.8.1. • Variance of PD = mean default rate. • Loss severity (LGD) is also stochastic in Credit Risk +. Saunders & Cornett, Financial Institutions Management, 4th ed.

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  50. Distribution of Losses • Combine default frequency and loss severity to obtain a loss distribution. Figure 8.3. • Loss distribution is close to normal, but with fatter tails. • Mean default rate of loan portfolio equals its variance. (property of Poisson distrib.) Saunders & Cornett, Financial Institutions Management, 4th ed.

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