more on stochastic reserving in general insurance giro convention, killarney, october 2004 peter...
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![Page 1: More on Stochastic Reserving in General Insurance GIRO Convention, Killarney, October 2004 Peter England and Richard Verrall](https://reader036.vdocument.in/reader036/viewer/2022062518/56649ea45503460f94ba840d/html5/thumbnails/1.jpg)
More on Stochastic Reserving in General Insurance
GIRO Convention, Killarney, October 2004
Peter England and Richard Verrall
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Overview
The story so far
Bootstrapping recursive models (including Mack's model)
Working with incurred data
Bayesian recursive models
A comparison between bootstrapping and Bayesian methods
Bootstrapping and the Bornhuetter-Ferguson Technique
Including curve fitting for estimating tail factors
Developments in Stochastic Reserving
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Background
England, P and Verrall, R (1999), Analytic and bootstrap estimates of prediction errors in claims reserving, Insurance: Mathematics and Economics 25, pp281-293.
England, P (2002), Addendum to “Analytic and bootstrap estimates of prediction errors in claims reserving”, Insurance: Mathematics and Economics 31, pp461-466.
England, PD and Verrall, RJ (2002), Stochastic Claims Reserving in General Insurance, British Actuarial Journal 8, III, pp443-544.
+ many other papers
Developments in Stochastic Reserving
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Conceptual Framework
P re d ic tive D istrib u tion
V a ria b ility(P re d ic tio n E rro r)
R e se rve e stim a te(M e a su re o f lo ca tio n )
Developments in Stochastic Reserving
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Example
357848 766940 610542 482940 527326 574398 146342 139950 227229 67948 0352118 884021 933894 1183289 445745 320996 527804 266172 425046 94,634 290507 1001799 926219 1016654 750816 146923 495992 280405 469,511 310608 1108250 776189 1562400 272482 352053 206286 709,638 443160 693190 991983 769488 504851 470639 984,889 396132 937085 847498 805037 705960 1,419,459 440832 847631 1131398 1063269 2,177,641 359480 1061648 1443370 3,920,301 376686 986608 4,278,972 344014 4,625,811
18,680,856 3.491 1.747 1.457 1.174 1.104 1.086 1.054 1.077 1.018 1.000
Developments in Stochastic Reserving
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Prediction Errors – “Chain Ladder” Structure
Mack's Over-Distribution dispersed Negative
Year Free Poisson Bootstrap Binomial Gamma Log-Normal2 80 116 117 116 48 54
3 26 46 46 46 36 39
4 19 37 36 36 29 32
5 27 31 31 30 26 28
6 29 26 26 26 24 26
7 26 23 23 22 24 26
8 22 20 20 19 26 28
9 23 24 24 23 29 31
10 29 43 43 41 37 41
Total 13 16 16 15 15 16
Developments in Stochastic Reserving
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Over-Dispersed Poisson
)(E)(
)(
log
)(~
ijij
ijij
ijij
ijij
CoCVar
C
IPoiC
jiCij year t developmen and year origin in claims lIncrementa
Developments in Stochastic Reserving
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Example Predictor Structures
)(log)(
log
21 (t)stsac(t)
(t)db.tac(t)
bacη
ii
ii
jiij
Chain Ladder
Hoerl Curve
Smoother
Developments in Stochastic Reserving
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Variability in Claims Reserves
> Variability of a forecast
> Includes estimation variance and process variance
> Problem reduces to estimating the two components
21
variance)estimation variance(processerror prediction
Developments in Stochastic Reserving
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Prediction Variance
ikijikij
ijijij
ijijij
Cov
VarMSE
VarMSE
)(2
)(
)(
2
2
Individual cell
Row/Overall total
Developments in Stochastic Reserving
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EMBLEM DemoODP Chain Ladder with constant scale parameter
Developments in Stochastic Reserving
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Mack’s Model
jiDij year t developmen and year origin in claims Cumulative
Developments in Stochastic Reserving
Mack, T (1993), Distribution-free calculation of the standard error of chain-ladder reserve estimates. ASTIN Bulletin, 22, 93-109
1,2
1,
jijij
jijij
DDV
DDE
Specifies first two moments only:
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Mack’s Model
2
1
11
1
, 1, 1
Provides estimators for and
ˆ
and
j j
n j
ij iji
j n j
iji
ijij i j ij
i j
w f
w
Dw D f
D
Developments in Stochastic Reserving
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Mack’s Model
1 2
2
1
212 1
21 1
1
1 ˆˆ
ˆ 1 1ˆ ˆˆ ˆ
n j
j ij ij ji
nk
i in n kk n i ikk
qkq
w fn j
MSEP R DD D
Developments in Stochastic Reserving
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ResQ Demo – Mack’s ModelDevelopments in
Stochastic Reserving
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Parameter Uncertainty - Bootstrapping
> Bootstrapping is a simple but effective way of obtaining a distribution of parameters
> The method involves creating many new data sets from which the parameters are estimated
> The new data sets are created by sampling with replacement from the observed data (or residuals)
> The model is re-fitted to each new data set
> Results in a (“simulated”) distribution of the parameters
Developments in Stochastic Reserving
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Reserving and Bootstrapping
O b ta in fo re ca st, in clu d ing p roce ss e rro r
O b ta in re sid ua ls a n d p se ud o d a taR e -fit s ta tis t ica l m o de l to p seu d o d a ta
D e fine a n d f it sta tis tica l m o d e l
Any model that can be clearly defined can be bootstrapped
(see the England and Verrall papers for bootstrapping the ODP)
Developments in Stochastic Reserving
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Bootstrapping Mack’s Model
jiDij year t developmen and year origin in claims Cumulative
Developments in Stochastic Reserving
1,
2
1,
1,
ji
j
ji
ij
jji
ij
DD
DV
D
DE
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Bootstrapping Mack’s ModelDevelopments in
Stochastic Reserving
factorst developmen-pseudo ˆ
residual edstandardis ˆ
residual ˆ
,~
**
2
j
ij
jijij
j
ijijij
ij
ijijijij
ij
jjij
w
rf
fwr
fwr
wNf
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Recursive Models: ForecastingDevelopments in
Stochastic Reserving
> With recursive models, forecasting proceeds one-step at a time:
Move one-step ahead by multiplying the previous cumulative claims by the appropriate bootstrapped development factor
Include the process error by sampling a single observation from the underlying process distribution, conditional on the mean given by the previous step
Move to the next step
Note that the process error is included at each step before proceeding
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Igloo Demo 1 – BootstrappingChain Ladder Model Only
Developments in Stochastic Reserving
ODP – with constant scale parameter
Bootstrapping Mack’s Model
ODP – with non-constant scale parameters
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Negative Binomial Recursive Model
1,
1,
)1(
jijjjij
jijij
DDV
DDE
jiDij year t developmen and year origin in claims Cumulative
This is a recursive equivalent to the ODP model
Developments in Stochastic Reserving
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Igloo Demo 2 – BootstrappingNegative Binomial – Chain Ladder Model only
Developments in Stochastic Reserving
Negative Binomial – with constant scale parameter
Negative Binomial – with non-constant scale parameters
Compare results with ODP and Mack shown earlier:
> ODP and Negative Binomial are very close
> Results with non-constant scale parameters are close to Mack’s method
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Bootstrapping Recursive Models: Advantages
> Consistent with traditional deterministic actuarial techniques
Individual points can be weighted out for n-year volume weighted averages, exclude high/low etc
Curve fitting can be incorporated
> Bootstrap version of Mack’s model can be used where negative incrementals are encountered
For example: Incurred claims
> Bootstrapping incurred claims:
Gives distribution of Ultimates and IBNR
Can be combined with Paid to Date to give distribution of Outstanding claims
Must be combined with (simulated) Paid to Incurred ratios to give distributions of payment cash flows
Developments in Stochastic Reserving
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Reserving and Bayesian Methods
O b ta in fo re ca st, in clu d ing p roce ss e rro r
O b ta in d is trib u tion o f p ara m e te rsu s in g G ib bs sa m p ling
D e fine a n d f it sta tis tica l m o d e l
Any model that can be clearly defined can be fitted as a Bayesian model
Developments in Stochastic Reserving
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Excel Demo – Gibbs SamplingODP - Chain Ladder Model Only
Developments in Stochastic Reserving
Parameter Number
Name ValueStandard
ErrorExpected
ValueStandard
Error
1 Mean 12.506 0.173 12.500 0.165 - Row (1)2 Row (2) 0.331 0.153 0.335 0.1503 Row (3) 0.321 0.158 0.322 0.1554 Row (4) 0.306 0.161 0.307 0.1575 Row (5) 0.219 0.168 0.220 0.1646 Row (6) 0.270 0.171 0.266 0.1707 Row (7) 0.372 0.174 0.369 0.1708 Row (8) 0.553 0.186 0.549 0.1839 Row (9) 0.369 0.239 0.352 0.239
10 Row (10) 0.242 0.428 0.172 0.434 - Col (1)
11 Col (2) 0.913 0.149 0.910 0.15712 Col (3) 0.959 0.153 0.956 0.15913 Col (4) 1.026 0.157 1.024 0.16714 Col (5) 0.435 0.184 0.427 0.19115 Col (6) 0.080 0.214 0.065 0.22216 Col (7) -0.006 0.238 -0.029 0.24417 Col (8) -0.395 0.310 -0.434 0.31618 Col (9) 0.009 0.320 -0.045 0.32819 Col (10) -1.380 0.897 -1.827 1.016
EMBLEM GIBBS
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Igloo Demo 3 – Bayesian MethodsODP, Negative Binomial and Mack’s modelComparison with bootstrapping
Developments in Stochastic Reserving
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Bayesian Stochastic Reserving: Advantages
> Overcomes some practical difficulties with bootstrapping
> Sets of pseudo-data are not required, therefore far less RAM hungry when simulating
> Arguably more statistically rigorous and theoretically appealing
> Flexible approach
Informative priors
Bayesian Bornhuetter-Ferguson Method (see latest NAAJ)
Model uncertainty
Individual claims and additional covariates
Developments in Stochastic Reserving
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The Bornhuetter-Ferguson Method and Bootstrapping
> Pseudo-development factors give simulated proportion of ultimate to emerge in each development year
> BF prior loss ratio gives prior Ultimate
> Adjust pseudo-data to take account of BF prior Ultimate and simulated proportions, before forecasting
> Forecast based on adjusted pseudo-data
> BUT, simulate the BF prior ultimate making assumptions about precision of prior
> Add simulated forecasts to historic Paid-to-Date to give distribution of Ultimate.
Developments in Stochastic Reserving
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A Bayesian Bornhuetter-Ferguson Method
> A Bayesian framework is a natural candidate for a stochastic BF method
> Bayesian recursive models offer the best way forward
> Work in progress!
Verrall, RJ (2004), A Bayesian Generalised Linear Model for the Bornhuetter-Ferguson Method of Claims Reserving, NAAJ, July 2004
Developments in Stochastic Reserving
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Bootstrapping and Curve FittingDevelopments in
Stochastic Reserving
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Igloo Demo 4 – Bootstrapping
Curve fitting and Tail Factors
Developments in Stochastic Reserving
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Summary of Developments
> ODP with non-constant scale parameters
> Bootstrap version of Mack’s model
> Recursive version of ODP: Negative Binomial model
Recursive models allow weighting out of points (exclude Max/Min, n-year volume weighted averages etc)
> Bootstrap version of the Negative Binomial model
> Curve fitting, tail factors and bootstrapping
> Bayesian stochastic reserving
Any clearly defined model (ODP, Mack, NB, curve fitting etc)
> A stochastic Bornhuetter-Ferguson method
Developments in Stochastic Reserving