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Lecture 11 Implementation Issues – Part 2. Monte Carlo Simulation. An alternative approach to valuing embedded options is simulation Underlying model “simulates” future scenarios Use stochastic interest rate model Generate large number of interest rate paths
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Monte Carlo Simulation • An alternative approach to valuing embedded options is simulation • Underlying model “simulates” future scenarios • Use stochastic interest rate model • Generate large number of interest rate paths • Determine cash flows along each path • Cash flows can be path dependent • Payments may depend not only on current level of interest but also the history of interest rates
Monte Carlo Simulation (p.2) • Discount the path dependent cash flows by the path’s interest rates • Repeat present value calculation over all paths • Results of calculations form a “distribution” • Theoretical value is based on mean of distribution • Average of all paths
Option-Adjusted Spread • Market value can be different from theoretical value determined by averaging all interest rate paths • The Option-Adjusted Spread (OAS) is the required spread, which is added to the discount rates, to equate simulated value and market value • “Option-adjusted” reflects the fact that cash flows can be path dependent
Using Monte Carlo Simulation to Evaluate Mortgage-Backed Securities • Generate multiple interest rate paths • Translate the resulting interest rate into a mortgage rate (a refinancing rate) • Include credit spreads • Add option prices if appropriate (e.g., caps) • Project prepayments • Based on difference between original mortgage rate and refinancing rate
Using Monte Carlo Simulation to Evaluate Mortgage-Backed Securities (p.2) • Prepayments are also path dependent • Mortgages exposed to low refinancing rates for the first time experience higher prepayments • Based on projected prepayments, determine underlying cash flow • For each interest rate path, discount the resulting cash flows • Theoretical value is the average for all interest rate paths
Simulating Callable Bonds • As with mortgages, generate the interest rate paths and determine the relationship to the refunding rate • Using simulation, the rule for when to call the bond can be very complex • Difference between current and refunding rates • Call premium (payment to bondholders if called) • Amortization of refunding costs
Simulating Callable Bonds (p.2) • Generate cash flows incorporating call rule • Discount resulting cash flows across all interest rate paths • Average value of all paths is theoretical value • If theoretical value does not equal market price, add OAS to discount rates to equate values
Effective Duration • Determine interest rate sensitivity of cash flows that vary with interest rates by increasing and decreasing the beginning interest rate • Generate all new interest rate paths and find cash flows along each path • Include option components • Discount cash flows for all paths • Changes in theoretical value numerically determine effective duration
Using Simulation to Determine the Effective Duration of Loss ReservesStep 1 • Determine a model for loss payments as a function of interest rates • Select an interest rate model and the appropriate parameters • Simulate a number of interest rate paths • Calculate the cash flow of loss payments for each interest rate path • Discount each cash flow based on the corresponding interest rate path • The economic value of the loss reserves is assumed to be the average discounted value
Using Simulation to Determine the Effective Duration of Loss ReservesStep 2 • Increase the starting short term interest rate by 100 basis points • Simulate a number of interest rate paths with the new short term interest rate • Calculate the cash flow of loss payments for each interest rate path • Discount the cash flow based on the interest rate path corresponding with each cash flow • The economic value of the loss reserves if interest rates were to change in this direction is assumed to be the average discounted value
Using Simulation to Determine the Effective Duration of Loss ReservesStep 3 • Decrease the starting short term interest rate by 100 basis points • Repeat points 2-5 from Step 2 • Use the economic values for the interest rate increases and decreases to determine the sensitivity of loss reserves to interest rate changes
Advantages of Simulation • Type of cash flow distribution may not be clear • If one statistical distribution is used for the number of claims and another distribution determines the size of claims, statistical theory may not be helpful to determine distribution of total claims • Distribution of results provides more information than mean and variance • Can determine tails of the distribution (e.g. 95th percentile)
Advantages of Simulation (p.2) • Mathematical estimation may not be possible • Only numerical solutions exist for some problems • Can be easier to explain to management • Possible to revise values and re-run simulation to examine the effect of changes
Disadvantages of Simulation • Computer expertise, cost, and time • Mathematical solutions may be straight forward • However, computing time is becoming cheaper • Modeling only provides estimates of parameters and not the true values • Pinpoint accuracy may not be necessary, though • Models are only approximately true • Simplifying assumptions are part of the model
Tools for Simulation • Spreadsheet software (Excel, Lotus) • Include many statistical, financial functions • Macros increase programming capabilities • Add-in packages for simulation • Crystal Ball or @RISK • Other computing languages • FORTRAN, Pascal, C/C++, APL • Beware of “random” number generators
Applications of Simulation • Usefulness is unbounded • Any stochastic variable can be modeled based on assumed process • Interaction of variables can be captured • Complex systems do not need to be solved analytically • Good news for insurers
Conclusion • Simulation can be a powerful tool for interest rate modeling • Output can be extensive and impressive • Effort involved in developing a model is generally challenging and time consuming • Usefulness of results depends on how well the model reflects reality • Understanding the model is essential to know when it is reliable and when it is not