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Testing Reserve Models

Testing Reserve Models. Gary G Venter Guy Carpenter Instrat. Testing Methodology. Tests based on goodness of fit of models Test by SSE adjusted for number of parameters Can also test significance of parameters and validity of model assumptions. Issues to Be Tested.

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Testing Reserve Models

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  1. Testing Reserve Models Gary G Venter Guy Carpenter Instrat

  2. Testing Methodology • Tests based on goodness of fit of models • Test by SSE adjusted for number of parameters • Can also test significance of parameters and validity of model assumptions

  3. Issues to Be Tested • Is development multiplicative? • Is development contingent on previous losses? • Are there diagonal effects in the triangle?

  4. Is Development Multiplicative? • Convenient assumption • Allows for differences in levels among accident years • Sometimes too restrictive for actual data • Additive models particularly useful when triangle is built from on-level loss ratios • On leveling puts in known adjustments so parameters of model do not have to fit them • Parameters can then fit development patterns only • Can test significance of additive and multiplicative parameters, as well as goodness of fit

  5. Development Contingent on Previous Losses? • Age-to-age factors typically applied to previous losses • But in B-F models they are applied to expected • Can test which is better • Contingent vs. non-contingent a fundamental categorization of models

  6. Diagonal Effects in Triangle? • Calendar year inflation can affect all accident years • Changes in claims department practices can affect selected years • Can test significance of diagonal parameters

  7. Notation • c(w,d): cumulative loss from accident year w as of age d • q(w,d): incremental loss for accident year w at age d • q(w,d) = c(w,d) – c(w,d-1) • f(d): factor applied to c(w,d) to estimate q(w,d+1)

  8. Model Formulas • Chain ladder q(w,d+1) = f(d)c(w,d) + e [f(d) means different factor for each lag] • Parameterized B-F q(w,d+1) = f(d)h(w) + e [h(w) means different ultimate for each year] • Cape Cod q(w,d+1) = f(d)h + e [h with no w means all years have the same h] • Additive q(w,d+1) = g(d) + e [project constant loss for each year varying by lag] (Additive = Cape Cod) • Separation q(w,d+1) = f(d)h(w)g(w+d+1) + e OR: q(w,d+1) = f(d)c(w,d)g(w+d+1) + e OR: q(w,d+1) = f(d)h(w)+g(w+d+1) + e OR: q(w,d+1) = f(d)c(w,d)+g(w+d+1) + e

  9. Flavors of the Chain Ladderq(w,d+1) = f(d)c(w,d) + e • E(e) = 0, but what about variance of e? • Jth flavor has standard deviation(e) = c(w,d)j • Divide both sides by c(w,d)j to get sd = , which is regression assumption • Can do similarly for other models • Murphy PCAS 1994 shows that this adjusted regression based on various j’s reproduces common estimation methods for development factors • But it may be hard to tell what j is

  10. Hard to say j  0 for this sample data

  11. RAA Fac GL

  12. ISO Zone Rate Trucks $1M Limit or Less Incremental Paid Loss and LAE

  13. RAA: Statistical Significance of Factors Regressions of incremental on previous cumulative Constants almost all significant, no factors are Constants even more significant without factors

  14. RAA: 0 to 1 Is Constant + Random

  15. ISO: Statistical Significance of Factors No constants are significant Large factors are More factors are significant without constants

  16. ISO: Factor Times Lag 0 a Good Predictor of Lag 1

  17. Testing Fit of Models • Multiply SSE by a factor that increases with more parameters, like: • AIC: e2p/n 4% • BIC or SIC: sqrt(n)2p/n 8% • HQIC: ln(n)2p/n 6% • OS: (n-p)-2 4%-8% for p=1…24 (percent shown is needed improvement in SSE for an extra parameter for a sample of 50 observations) IC formulas are for nExp(IC/n) with normal residuals (A=Akaike, B=Bayesian, HQ=Hannan-Quinn, OS=Old Standby)

  18. Fitting BF Parameters – RAA Case

  19. Reducing # of Parameters • CC makes all accident year factors the same • Useful for stable data or on-level loss ratios • Some factors may be the same • If difference between factors is not significant, can make them the same • Can fit lines or curves to some of the parameters: • f(d) = (1+i)-d

  20. Goodness of Fit Comparisons - RAA OS Adjusted SSE’s SSE Model Params Generation Formula • 157,902 CL 9 q(w,d+1) = f(d)c(w,d) + e • 81,167 BF 18 q(w,d+1) = f(d)h(w) + e • 75,409 CC 9 q(w,d+1) = f(d)h + e • 57,527 CC- 2 q(w,d+1) = .78d6756 + e • 52,360 BF-CC 9 q(w,d+1) = f(d)h(w) + e • h5 - h9 same, h3=(h2+h4)/2, f1=f2, f6=f7, f8=f9 • 44,701 Sep 7 q(w,d+1) = f(d)h(w)g(w+d+1)+e • 4 unique age factors, 2 diagonal, 1 acc. yr. • Diagonal factors fit like B-F, with 3 step iteration

  21. Goodness of Fit Comparisons - ISO OS Adjusted SSE’s SSE Model Params Generation Formula • 59,185 CL 12 q(w,d+1) = f(d)c(w,d) + e • 69,302 BF 24 q(w,d+1) = f(d)h(w) + e • 302,168 CC 12 q(w,d+1) = g(d) + e • 54,852 Sep 16 q(w,d+1) = f(d)c(w,d) + 4 diagonal additive dummies g(w+d+1)+e • 42,558 Reduced 13 same as separation 7-8, 8-9, 9-10, 10-11 factors all equal, plus 4 diagonal dummies

  22. Regression Array with Diagonal Dummies 1254 3 89 710 7 21 0 0 0 0 83 0 0 1 0 107 0 0 0 1 5 0 3 0 1 0 9 0 11 0 0 1 4 0 0 8 0 1

  23. Which Diagonals? Too many would over determine regression 4,5,10,11 most likely suspects Reversals in alternative years No apparent trend

  24. Regression Coefficients for DummiesFull Factor Model Similar but slightly more significant in combined factor model

  25. Issues to Be Tested • Is development multiplicative? • RAA: no, ISO: yes • Is development contingent on previous losses? • RAA: no, ISO: yes • Are there diagonal effects in the triangle? • Some high and low diagonals in both, but no trends

  26. finis

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