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Capital Consumption

Capital Consumption. Don Mango American Re-Insurance 2003 CARe Seminar. Goals for Today. Get you to admit this is a valid alternative framework (albeit orthogonal) to capital allocation / release / IRR Demonstrate how it can be practically implemented as a means of pricing reinsurance

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Capital Consumption

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  1. Capital Consumption Don Mango American Re-Insurance 2003 CARe Seminar

  2. Goals for Today • Get you to admit this is a valid alternative framework (albeit orthogonal) to capital allocation / release / IRR • Demonstrate how it can be practically implemented as a means of pricing reinsurance • Demonstrate connections to leading edge thinking in financial science

  3. Problem Statements • Capital allocation is a de facto paradigm  a requirement or necessity • Therefore we force-fit our business into a manufacturing-based capital investment framework

  4. Problem Statements • But insurance capital usage is fundamentally different than it is for manufacturing, being in fact the mirror-image in time • For these decision evaluation processes, capital allocation is sufficient but not necessary

  5. Problem Statements • Even worse, the resulting insurance IRR framework is now completely fictional (“imputed”), since no capital is actually transferred or returned • However, insurance capital is actually consumed when results are worse than planned

  6. This IS capital allocation for insurance, done right But I needed new terminology to shake loose the old thought processes Actually…

  7. Two Bets • Bet #1 • You pay me $10 now • I might pay you $50 later • Bet #2 • I pay you $10 now • You might have to pay me $50 later

  8. Payoff Diagrams

  9. Bet #1Spend then Maybe Receive • You spend now, hope to receive later • You spend NOW, voluntarily • With the odds I give you, you can compute an expected value and decide if you want to make the bet

  10. Bet #2Receive then Maybe Spend • You receive now, hope you don’t have to spend later • You MAY spend LATER, involuntarily • With the odds I give you, you can compute an expected value and decide if you want to make the bet

  11. Capital? • Bet #1 = $10 • You spend $10 capital NOW no matter what • The capital investment is current and certain – i.e., not contingent • Allocated = spent • Natural capacity constraint = your budget

  12. Capital? • Bet #2 = $??? • I should be sure you have $40 available LATER, but you don’t spend anything NOW • If Bet #2 hits, you spend $40 capital LATER • Capital expenditure (= allocation) is contingent and in the future • Capacity constraints = ??? Perception

  13. Two Bets? • Bet #1 = the manufacturing investment decision • Spend then receive • Bet #2 = the insurance investment decision • Receive then spend

  14. Allocation vs Consumption • Two different but equally valid frameworks for • Treating capital • Evaluating insurance business segments • Developing indicated prices for reinsurance • Nearly orthogonal

  15. Allocation vs Consumption • Four questions: • What do you do with the total capital? • How do you evaluate business segments? • What does it mean to be in a portfolio? • How is relative risk contribution reflected?

  16. Allocation vs Consumption

  17. Allocation vs Consumption

  18. Allocation vs Consumption • The difference between having your own kiddie pool and joining a swim club • This is THE CRITICAL SLIDE!

  19. Allocation vs Consumption

  20. Scenario analysis Default-free discounting Scenario-level capital consumption Evaluation of capital consumption using a “quasi~utility” approach Details of the Framework

  21. Conditional on its occurrence, a given scenario’s outcome is certain  discount at the default-free rate Risk-adjusted discounting is too clumsy Overloaded operator Try splitting out default probability from price of risk in risky debt spreads Reflect uncertainty between scenarios, not within What is uncertainty within a scenario anyway? Do you believe the scenario is possible or not? Default-Free Discounting

  22. Experience fund From Finite Reinsurance Fund into which goes all revenue, from which comes all payments Bakes in investment income When it drops below zero, and further payments need to be made, gotta “call the parents” for some capital That capital is spent  CONSUMED Scenario Capital Consumption

  23. Experience Fund Long-Tailed LOB

  24. Experience FundShort-Tailed LOB

  25. This is more realistic than imputed capital flows. (Imputed = fictional) The capital does flow, but in the future. When a segment’s results deteriorate, the company’s capital is consumed as it is turned into additional reserves. This is what actually happens, so why don’t we model it? Why pretend? Scenario Capital Consumption

  26. Property Cat Example

  27. How would you do this with capital allocation? Allocate a percentage of the limit – say 5% -- based on marginal portfolio capital requirements? What does that mean? What happens if the event occurs? Where does the money to pay the claim come from? Does the sum of the marginals add up to the company’s total capital? If not, what does it mean? Property Cat Example

  28. The entire surplus is available to every policy to pay losses in excess of the aggregate loss component. We can envision an insurance company instituting a charge for the access to the surplus. This charge should depend, not just on the likelihood that surplus might be needed, but on the amount of such a surplus call. Capital Calls (Philbrick/Painter)

  29. We can think of a capital allocation method as determining a charge to each line of business that is dependant on the need to access the surplus account. Conceptually, we might want to allocate a specific cost to each line for the right to access the surplus account. In practice though, we tend to express it by allocating a portion of surplus to the line, and then requiring that the line earn (on average) an adequate return on surplus. Capital Calls (Philbrick/Painter)

  30. Risk-based overhead expense loading Pricing decision variable Application of utility theory Borch (1961):To introduce a utility function which the company seeks to maximize, means only that such consistency requirements (in the various subjective judgments made by an insurance company) are put into mathematical form. Capital Call Cost Function

  31. Make the implicit explicit Express your preferences explicitly, in mathematical form, and apply them via a utility function The mythical Risk Appetite Enforce consistency in the many judgments being made Capital Call Cost Function

  32. Preferences buried in Kreps’ “Marginal Standard Deviation” risk load approach: The marginal impact on the portfolio standard deviation is our chosen functional form for transforming a given distribution of outcomes to a single risk measure. Risk is completely reflected, properly measured and valued by this transform. Upward deviations are treated the same as downward deviations. Implicit Preferences

  33. Utility theory in actuarial pricing – from Longley-Cook, Halliwell, Heyer and Schnapp Probability measure change – from financial mathematics The Wang Transform – from Shaun Wang Additive Co-Measures – from Rodney Kreps Conditional Risk Charges – from David Ruhm and Don Mango, 2003 Bowles Symposium This links up with:

  34. Risk Charge • Both Expected Utility and Distorted Probability determine a risk charge by:Risk Charge = Expected Value – Modified Expected Value • How do we calculate the Modified Expected Value?

  35. Expected Utility • Modified Expected Value = Sumproduct of Modified Values and Probabilities • Utility function is the modifier

  36. Distorted Probability • Modified Expected Value = Sumproduct of Values and Modified Probabilities • Probability Distortion Function is the modifier (changes p  q; impress your friends by discussing the “q-measure”)

  37. Distorted Probability • A.k.a. “Measure Change” (change in the probability measure) • In the Black-Scholes world… • Constant interest rate, complete market, no transaction costs, instantaneous perfect hedging, … • …the q-measure is unique. • As soon as a few of those constraints are relaxed, there are infinite q-measures, all of which work.

  38. Wang Transform • Every value is  standard deviations worse • If the asset return R has a normal distribution F(x), transformed F*(x) is also normal with • E*[R] = E[R] – [R] = r (risk-free rate) •  = { E[R] – r }/[R] = the “market price of risk”, also called the Sharpe ratio • It recovers CAPM for assets, and Black-Scholes formula for Options

  39. Kreps’ Co-Measures • Risk load R(X) is a probability-weighted average of “riskiness” r(x) over outcomes of the total net loss • g(x) can be thought of as the “riskiness leverage ratio” that multiplies the actual dollar excess that an outcome would entail to get the riskiness. • It reflects that not all dollars are equal, especially dollars that trigger analyst or regulatory tests.

  40. Conditional Risk Charge • David Ruhm and Don Mango, 2003 Bowles Symposium paper • www.casact.org/coneduc/specsem/sp2003/papers/ruhm-mango.doc • Main principle of conditional risk charge: Each risk receives a charge that represents how much it contributes to undesirable portfolio outcomes. • Generalization of Appendix B of my paper

  41. Advantages of Method • Additive prices. • Extends aggregate risk valuation to any individual risk, including layers of risks. • Handles any underlying dependence structure. • Really works well for Property Cat.

  42. Goals for Today • Get you to admit this is a valid alternative framework (albeit orthogonal) to capital allocation / release / IRR • Demonstrate how it can be practically implemented as a means of pricing reinsurance • Demonstrate connections to leading edge thinking in financial science

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