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2. Agenda. Interest rate riskThe repricing gap ModelMarginal and cumulative gapsProblems of the repricing gap modelThe standardized gap. 3. Interest rate risk. Assets maturity > liabilities ?refinancing riskAssets maturity < liabilities ?reinvestment risk.A change in the level of interest rat
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1. Interest rate risk and the repricing gap model
Session 1
Andrea Sironi
2. 2 Agenda Interest rate risk
The repricing gap Model
Marginal and cumulative gaps
Problems of the repricing gap model
The standardized gap
3. 3 Interest rate risk Assets maturity > liabilities ?refinancing risk
Assets maturity < liabilities ?reinvestment risk.
A change in the level of interest rates has a double economic effect:
Direct effect: change in the market value of A/L and in the level of interests paid and received
Indirect effect: change in the amounts of financial activities
4. 4 The Repricing Gap Model “Income oriented model” ? target variable = Net Interest Income (NII) = Interest Revenues – Interest Expenses
Interest Rate Gap ? difference between assets and liabilities sensitive to interest rates changes in a predefined time period.
An asset or a liability is “sensitive” if, in the relevant time period (“gapping period”), it reaches its maturity or there is a renegotiation of the interest rate.
5. 5 The repricing gap
6. 6 The model at work Starting point:
We can also write
If the change is the same for assets and liabilities’ interest rates:
7. 7 Follows
8. 8 The model at work Some useful indicators:
? impact on profitability of lending activity
? Impact on profitability (Return on fin. assets)
? scale independent
9. 9 The timing problem We have made the assumption that a change of the interest rate will produce the same effect for every sensitive asset or liability
Under this assumption
In the real world the effect is different for every A/L and is proportional to the time gap between the renegotiation time and the ending of the gapping period
10. 10 Examples:
11. 11 The solution for the timing problem We can write
ij = current int. rate for the asset j-th
= interest rate after variation
pj = is the time (expressed as a fraction of the gapping period) from today to the next renegotiation of the int. rate
12. 12 The solution for the timing problem (follows) We can do the same for liabilities
We can calculate the “maturity adjusted gap” (every A/L has a weight proportional to the distance from the renegotiation period to the end of the gapping period)
13. 13 Marginal and cumulative gap An alternative to Magap that can be used to estimate the true exposure of the bank to changes in interest rates is the one based on the use of gaps relative to different time periods.
Marginal Gap: the difference between assets and liabilities with renegotiation of the interest rate in a certain time period.
Cumulative Gap: difference between assets and liabilities with renegotiation of the interest rate before a certain date.
14. 14 An example
15. 15 Marginal and cumulative gaps
16. 16 Follows
17. 17
18. 18 The effect on Net Interest Income To quantify the effect of the various interest rate changes we have to keep track of the length of the time period on which every change has an effect.
Even with a null annual gap we can have a non zero effect on the 1 year net interest income because every interest rate change has an effect on a different time period with a different marginal gap.
19. 19 Follows We can weight every marginal gap for the difference between the average renegotiation period inside the marginal gap and the end of the evaluation period (usually 1 year).
T = global gapping period (1 year)
ti = average renegotiation period inside the i-th gapping period
n = number of the time periods evaluated inside the global gapping period
WGAPT = sensitivity of NII to changes of interest rates ? duration of NII.
20. 20 Some numbers
21. 21 Conclusion Non zero marginal gaps can generate a non zero variation of the interest margin even with a null cumulative gap for two main reasons:
The changes of interest rates can be non uniform across different time sub-periods
The effect on the net interest income of the change of interest rates is different across different time sub-periods
To have a zero sensitivity of the NII we need zero marginal gap for every time sub period
22. 22 Maturity-adjusted gap versus time weighted cumulative gap The maturity-adjusted gap is more precise, as it considers the actual maturity of each asset and liability
The time weighted cumulative gap (based on marginal gaps) considers one virtual maturity, equal to the median value
However, marginal gaps have an advantage: they allow to estimate the impact on NII of different interest rate changes that may occur during the year
23. 23 Limits and problems Assumption of a uniform change of assets and liabilities’ interest rates.
Assets & Liabilities with no maturity (e.g. call deposits)
The model does not consider effects on the market value of A/L.
Assumption of a uniform change of interest rates for different maturities.
The model does not consider the effect of a variation of interest rates on the volume of financial assets and liabilities
24. 24 Answer to problem 1: Standardized Gap The first problem can be addressed with the following procedure
We identify a reference market rate, for example a 3 months interbank rate
We estimate the sensitivity of different assets’ and liabilities’ interest rates to the reference rate
We can calculate the standardized gap to evaluate the sensitivity of the NII to a change of the reference rate
25. 25 Standardized Gap
26. 26 An example
27. 27 Answer to problem 2: how to treat call deposits and other “no maturity” A&Ls 3 steps:
Analyse how much and after how long, on average, historically a market interest rate change gets reflected in call deposits rates
Divide SA and SL in coherent manner, based on the historical empirical evidence.
Compute the repricing gap based on the new values of SA and SL
28. 28 Asset & liabilities with no maturity (e.g. current account deposits)
29. 29 One problem: sensitivity may be asymmetric
30. 30 Maturity adjusted Gapstandardized and non-standardized
31. 31 Residual problems The model does not consider effects on the market value of A/L.
Assumption of a uniform change of interest rates for different maturities.
The model does not consider the effect of a change of interest rates on the volume of financial assets and liabilities
32. 32 Questions & Exercises 1. What is a “sensitive asset” in the repricing gap model?
A) An asset maturing within one year (or renegotiating its rate within one year)
B) An asset updating its rate immediately when market rates change
C) It depends on the time horizon used as gapping period
D) An asset the value of which is sensitive to changes in market interest rates
33. 33 Questions & Exercises 2. The assets of a bank consist of €500 of floating-rate securities, repriced quarterly (and repriced for the last time 3 months before), and of €1,500 of fixed-rate, newly issued two-year securities; its liabilities consist of €1,000 of demand deposits and of €400 of three-year certificates of deposit, issued 2.5 years before. Given a gapping period of one year, and assuming that the four items mentioned above have a sensitivity (“beta”) to market rates (e.g, to 3-month interbank rates) of 100%, 20%, 30% and 110% respectively, identify which of the following statements is correct:
A) The gap is negative, the standardised gap is positive
B) The gap is positive, the standardised gap is negative
C) The gap is negative, the standardised gap is negative
D) The gap is positive, the standardised gap is positive
34. 34 Questions & Exercises 3. Bank Omega has a maturity structure of its assets and liabilities like the one shown in the Table below.
Find:
A) Cumulated gaps of different maturities
B) Marginal (periodic) gaps relative to the following maturity buckets: (i) 0-1 month, (ii) 1-6 months, (iii) 6 months-1 year, (iv) 1-2 years, (v) 2-5 years, (vi) 5-10 years, (vii) beyond 10 years;
C) The change experienced by NII next year if lending and borrowing rates increase, for all maturities, by 50 basis points, assuming that the rate repricing will occur exactly in the middle of each time band (e.g., after 15 days for the band between 0 and 1 month, 3.5 months for the band 1-6 months, etc.).
35. 35 Questions & Exercises 4. The interest risk management scheme followed by Bank Lambda requires it to keep all marginal (periodic) gaps at zero, for any maturity band. The Chief Financial Officer states that, accordingly, the bank’s net interest income (NII) is immune from any possible change in market rates. Which among the following events could prove him wrong?
I) A change in interest rates not uniform for lending and borrowing rates
II) A change in long term rates which affects the market value of items such as fixed-rate mortgages and bonds
III) The fact that borrowing rates are stickier than lending rates
IV) A change in long term rates greater than the one experienced by short-term rates
A) I and III
B) I, III and IV
C) I, II and III
D) All of the above
36. 36 Questions & Exercises 5. Using the data in the Table below (and assuming, for simplicity, a 360-day year made of 12 30-day months):
i) compute the one-year repricing gap and use it to estimate the effect on NII of a 0.5% increase in rates;
ii) compute the one-year magap and use it to estimate the effect on NII of a 0.5% increase in rates;
iii) compute the one-year standardised magap and use it to estimate the effect on NII of a 0.5% increase in rates;
iv) compare the differences among the results under i), ii) and iii) and provide an explanation.