Replicating Portfolios Complex modelling made simple

Replicating Portfolios Complex modelling made simple SAV Versammlung by Jolanta Tubis 10 September 2010 2010 Towers Watson. All rights reserved.

Agenda Smart modelling The replicating portfolio Approach Case studies towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 2

Why smart modelling? Life insurance is about hedging exposures For savings products life insurance is about individualised guarantees Each policyholder has potentially different strike prices (=guaranteed benefits), terms and benefits types The resulting overall exposure for the insurance company is complex non-linear difficult to manage But this gives life insurance a unique selling proposition In fact a life insurance portfolio is a portfolio of options But how does this portfolio look like? towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 3

Why smart modelling? We have some information, but not enough and not often enough In order to manage the liabilities we need: - the whole picture - daily Benefits Shareholder Interest rate guarantee And we have issues with accuracy and run-time Smoothed investment return Sensitivity Base case Sensitivity EEV gives us some insight from time to time, but with great effort. Can we use the EEV-efforts to get more? Can we reduce effort and improve accuracy? towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 4

There are many promising approaches to solve some of our technical problems Weighted Monte Carlo Improves accuracy and fit to calibration Still requires stochastic calculations for each piece of information Change of measure importance sampling Relevant, if not necessary, for stochastic determination of economic capital Can be very successfully combined with the replication portfolio approach Control variates Improves accuracy and fit to calibration Still requires stochastic calculations for each piece of information Moment matching Improves accuracy Still requires stochastic calculations for each piece of information Replicating portfolios Improves accuracy and fit to calibration Can be used as control variate Easy to understand and apply Some relevant information can be determined without stochastic runs Enables timely and relevant management information towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 5

Agenda Smart modelling The replicating portfolio Approach Case studies towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 6

What is a replicating portfolio? A replicating portfolio is a portfolio (of assets) that agrees in value with your liabilities under a range of economic conditions (=scenarios) Replicating portfolio Stochastic cash-flows Portfolio of nontraded options e.g. asset share options Portfolio of tradable options e.g. swaptions Portfolio of functions of the scenarios e.g. annuity functions towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 7

The key problem is the determination of the candidate assets The candidate assets should be able to reflect all relevant features of the contingent cash-flows, like Dependency on core asset classes Dependency on interest rates Path-dependent features like e.g. smoothing of returns look-back-features Typically following candidate assets are sufficient: The underlying core asset classes (in contract currency) Zero bonds Swaptions Plain vanilla call and put options For a relevant range of strike prices and terms In some circumstances path dependent options are required -> Actuarial judgement is important To avoid overfitting towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 8

After determining the candidate assets we can determine a portfolio as linear combination that is highly correlated with the liabilities Value of asset in scenario Scenario Cash flow at time t Asset 1 Asset 2 Asset 3 Asset 4 Asset 5 Asset 6 1 L 1 A 1,1 A 1,2 A 1,3 A 1,4 A 1,5 A 1,6 2 L 2 A 2,1 A 2,2 A 2,3 A 2,4 A 2,5 A 2,6 3 L 3 A 3,1 A 3,2 A 3,3 A 3,4 A 3,5 A 3,6 L 1 = w 1 *A 1,1 + w 2 *A 1,2 + w 3 *A 1,3 + 4 L 4 A 4,1 A 4,2 A 4,3 A 4,4 A 4,5 A 4,6 L 2 = w 1 *A 2,1 + w 2 *A 2,2 + w 3 *A 2,3 + 5 L 5 A 5,1 A 5,2 A 5,3 A 5,4 A 5,5 A 5,6 L 3 = w 1 *A 3,1 + w 2 *A 3,2 + w 3 *A 3,3 + 6 L 6 A 6,1 A 6,2 A 6,3 A 6,4 A 6,5 A 6,6 Subject to constraints replicating portfolio used as the basis of the estimation of the sensitivity replicating portfolio towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 9

Replicating portfolios can be derived from standard liability model runs Replicating Portfolio Tool Scenarios Cash Flows Potential Replicating Portfolios Optimization Engine Replicating Portfolio Standard Liability Model Runs Inputs/ Scenario Files Liability Models Cash Flow Outputs We still need a base run towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 10

Replicating portfolios can simplify your life substantially The approach enables you to Recalculate results for changed market parameters (asset prices, interest rates, volatility etc.) Calculate sensitivities (greeks like delta, vega, rho etc.) Improve accuracy and reduce the number of necessary runs Project asset-dependent variables, e.g. required capital, in stochastic runs Without the need to re-project the liabilities Which is usually the onerous part of the simulation But the most important advantage is the fact that a replicating portfolio simplifies communication dramatically A replication portfolio is a description of your liabilities in terms of assets towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 11

A typical replicating portfolio Candidate Asset Notional in bn EUR Current value Value in 1 moth under stress test XYZ DAX 1 4 2 SMI 0.5 2 12 Zero Bond EUR 1 year 2 2 2 Zero Bond EUR 30 years 5 3.5 3.5 Swaption EUR 10 years term 10 years tenor Strike 4% 7 0.5 0.5 Swaption EUR 1 year term 5 years tenor Strike 2% 5 0.2 0.2 Put Option on DAX 10 years Strike 1234 10 1 2 Put Option on DAX 10 years Strike 500 2 1 3 Floating strike lookback option on DAX 20 years strike 1234 3 2 2.5 Total 123 45 towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 12

Replicating portfolios are in fact control-variates replicating portfolio residuals stochastic cashflows = replicating portfolio (closed form solution) + residuals (low volatility = high accuracy) Estimation error σ n A replicating portfolio of the liabilities forms an ideal control variate towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 13

Goodness of fit typical analysis Exact value, closed form solution Value, market-consistent scenarios Value of the replicating portfolio 124.62 128.33 124.66 towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 14

Specific issues replicating portfolio for required economic capital In general the calculation of required capital requires full stochastic approach (nested stochastic simulations) The replicating portfolio approach allows to avoid the stochastic valuations and therefore to reduce the number of necessary calculations substantially towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 15

Specific issues replicating portfolio for required economic capital The approximation must be good in the quantile considered not only around the median The optimisation approach typically enforces a good fit around the median This is where most scenarios are Not such a good approach for required economic capital purposes Large market shocks should be replicated adequately It is important to ensure that the asymptotic behaviour of the replication portfolio cash-flows are reasonable towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 16

Agenda Smart modelling The replicating portfolio Approach Case studies towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 17

Applications of the replicating portfolio approach VA portfolios- hedging SST target capital for a block of GMxBs European reinsurer Typical German with profits business the book value effect towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 18

Replicating portfolio approach for VA dynamic hedging Numerical problems The Greeks calculation usually requires repeated stochastic simulation for a large number of scenarios over a huge portfolio of contracts time-consuming numerical errors Hedge effectiveness testing usually requires nested stochastic simulations Our research proves The Replicating portfolio approach can be successfully used to fit VA business with Complex path dependent policyholder behaviour Complex guarantee and asset mix structure The replicating assets are plain vanilla assets that will allow for Faster and more accurate valuation Hedging and market risk estimation, meaning derivation of Greeks Hedge effectiveness testing without time consuming nested stochastic simulations towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 19

Replicating assets Replicating assets Plain vanilla put options Basket options (including the forward starting versions) on actual underlying Simulating the asset mix of the underlying asset portfolio through combinations of 70-80% equity and 30-20% bonds Knock-out basket options When index level exceeds a certain level the option is knocked out, if the index never exceeds the knock-out level the option is in-force Closed forms or numerical approximations available towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 20

Results of central projection Scatter plot: Central scenarios 300 250 Replicating portfolio cash flows USD million 200 150 100 50 MoSes cash flows R2 Measure: 0.96 VRM: 5.16 0 0 50 100 150 200 250 300 USD million towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 21

Results of central projection Scatter plot: Equity stress scenarios 300 250 200 Replicating portfolio cash flows MoSes cash flows USD million 150 100 50 R2 Measure: 0.96 VRM: 5.24 0 0 50 100 150 200 250 300 USD million towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 22

Results of central projection Scatter plot: Interest stress scenarios 300 250 200 Replicating portfolio cash flows MoSes cash flows USD million 150 100 50 R2 Measure: 0.97 VRM: 5.47 0 0 50 100 150 200 250 300 USD million towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 23

Applications of the replicating portfolio approach VA portfolios- hedging SST target capital for a block of GMxBs European reinsurer Typical German with profits business the book value effect towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 24

SST target capital for a block of GMxBs European reinsurer Case study from 2005 (!) Includes policyholder behaviour (lapsation) Liabilities not straightforward: ratchets included Thus the replication portfolio included floating strike discrete lookback options Good approximation formula available Used for SST purposes Valid approach as asymptotic behaviour is clear! towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 25

Plain vanilla contracts, no policyholder behaviour 600.000 400.000 200.000 0-200.000 CF(t) -400.000-600.000 CF -800.000 Premium -1.000.000 Claims -1.200.000 0 100.000.000 200.000.000 300.000.000 400.000.000 500.000.000 600.000.000 AV(t) towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 26

Plain vanilla contracts, with policyholder behaviour Cash flows by asset value after 10 years 400000 200000 0-200000 CF(t) -400000-600000 -800000 CF Premium -1000000 Claims -1200000 0 50000000 100000000 150000000 200000000 250000000 300000000 350000000 AV(t) towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 27

The replication portfolio included floating strike discrete lookback options Number of assets purchased in each period Quarter Assets Strike 1 2 3 4 5 6 7 8 9 10 European put 1 0.5 0 0 0 0 0 0 0 0 0 0 European put 2 0.8 0 0 0 0 0 0 0 0-4'012'000-4'012'000 European put 3 1.111-653'000-653'000-653'000-653'000-2'825'000-2'825'000-2'825'000-2'825'000-2'351'000-2'351'000 European put 4 1.667-527'200-527'200-527'200-527'200-333'700-333'700-333'700-333'700-315'000-315'000 European put 5 2.222-472'900-472'900-472'900-472'900-301'500-301'500-301'500-301'500-285'100-285'100 European put 6 2.778-418'600-418'600-418'600-418'600-269'300-269'300-269'300-269'300-255'300-255'300 European put 7 3.333-364'300-364'300-364'300-364'300-237'100-237'100-237'100-237'100-225'400-225'400 European put 8 3.889-310'000-310'000-310'000-310'000-204'900-204'900-204'900-204'900-195'500-195'500 European put 9 4.444-255'700-255'700-255'700-255'700-172'600-172'600-172'600-172'600-165'700-165'700 European put 10 10 287'300 287'300 287'300 287'300 149'500 149'500 149'500 149'500 133'000 133'000 Equity N/A 690'100 690'100 690'100 690'100 430'400 430'400 430'400 430'400 404'600 404'600 Bond N/A 97'740 97'740 97'740 97'740 57'990 57'990 57'990 57'990 53'760 53'760 Lookback put 1 0.5-1'145'000-1'145'000-1'145'000-1'145'000-181'500-181'500-181'500-181'500-131'700-131'700 Lookback put 2 0.8-1'145'000-1'145'000-1'145'000-1'145'000-181'500-181'500-181'500-181'500-131'700-131'700 Lookback put 3 1.111-653'000-653'000-653'000-653'000-1'253'000-1'253'000-1'253'000-1'253'000-1'264'000-1'264'000 Lookback put 4 1.667-527'200-527'200-527'200-527'200-333'700-333'700-333'700-333'700-315'000-315'000 Lookback put 5 2.222-472'900-472'900-472'900-472'900-301'500-301'500-301'500-301'500-285'100-285'100 Lookback put 6 2.778-418'600-418'600-418'600-418'600-269'300-269'300-269'300-269'300-255'300-255'300 Lookback put 7 3.333-364'300-364'300-364'300-364'300-237'100-237'100-237'100-237'100-225'400-225'400 Lookback put 8 3.889-310'000-310'000-310'000-310'000-204'900-204'900-204'900-204'900-195'500-195'500 Lookback put 9 4.444-255'700-255'700-255'700-255'700-172'600-172'600-172'600-172'600-165'700-165'700 Lookback put 10 10 287'300 287'300 287'300 287'300 149'500 149'500 149'500 149'500 133'000 133'000 towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 28

Goodness of fit towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 29

Applications of the replicating portfolio approach VA portfolios- hedging SST target capital for a block of GMxBs European reinsurer Typical German with profits business the book value effect towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 30

Fallstudie: RP für das deutsche gewinnberechtigte Geschäft Gesellschaft ABC schreibt hauptsächlich das typische deutsche gewinnberechtigte Geschäft: Kapital und Renten Für die Fallstudie wurden die Zahlen anonymisiert Approximation des VIFs unter MCEV R 2 von 95% zeigt eine gute Anpassung des RP zu dem Dividenden-Cash Flow VIF aus RP RP 30 25 y = x R 2 = 0.9525 20 15 10 5 0-5 0-5 5 10 15 20 25 30 VIF per Szenario towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 31

Repricing: Um die Qualität zu verifizieren prüfen wir, ob wir mittels RP die ökonomischen Sensitivitäten replizieren können 8 7 6 5 ORG RP 4 3 2 Die Sensitivität Zins+1% ist beim RP unterschätzt 1 0 20% 15% Basis Zins+1% Zins-1% Aktien/Immo - 10% 15% 12% 10% 5% 0% -5% -10% -15% -20% -25% ORG RP -19% -20% -9% -9% Das geschätzte RP repliziert sehr gut die Sensitivitäten: Aktien - 10% und Zinsen -1% Basis Zins+1% Zins-1% Aktien/Immo - 10% towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 32

Geschätztes RP erlaubt mühelos das ganze Spektrum der Sensitivitäten zu berechnen 10 8 6 4 2 0-2 -50% -30% -10% 10% 30% 50% Veränderung der Aktienpreise -2% 0% 1% Zinskurve 10 8 6 4 2-50% -45% -40% -35% -30% -25% -20% -15% -10% -5% 0% 5% 10% 15% 20% 25% 0-2 -2.0% -1.6% -1.2% -0.8% -0.4% 0.0% 0.4% 0.8% Veränderung der Zinskurve 1.2% 1.6% 2.0% 30% 35% 40% 45% 50% towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 33

RP spiegelt das Risiko des deutschen gewinnberechtigten Geschäftes wider 3.0 2.5 2.0 Replicating Portfolio Illustrativ 1.5 2.8 2.8 1.0 2.0 0.5 0.6-0.1 0.0-0.5-1.5-0.5-1.0-1.5 Equity index Equity put options RE index RE put options Swaptions Zero bonds Bond index MCEV kann man mit long -Positionen in Aktien/Immobilien/Bonds und short - Positionen in Derivate replizieren Relativ niedriger Anteil der Swaptions liegt an Moneyness der Swaptions (deep outof-the-money) towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 34

Contact Jolanta Tubis Seefeldstrasse 214 Postfach 8034 Zürich Tel.: 043 488 4486 Fax: 043 488 4444 jolanta.tubis@towerswatson.com towerswatson.com 2010 Towers Watson. All rights reserved. Proprietary and Confidential. For Towers Watson and Towers Watson client use only. 35