Two-stage nested simulation of tail risk measurement: a likelihood ratio approach
Estimating tail risk measures is an important task in many financial and actuarial applications and often requires nested simulations, with the outer simulations representing real world scenarios, and the inner simulations typically used for risk neutral pricing or conditional risk measurement. The...
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sg-ntu-dr.10356-1647442023-05-19T07:31:17Z Two-stage nested simulation of tail risk measurement: a likelihood ratio approach Dang, Ou Feng, Mingbin Hardy, Mary R. Nanyang Business School Business::Finance::Risk management Nested Simulation Likelihood Ratio Method Estimating tail risk measures is an important task in many financial and actuarial applications and often requires nested simulations, with the outer simulations representing real world scenarios, and the inner simulations typically used for risk neutral pricing or conditional risk measurement. The standard nested simulation method is highly flexible, able to incorporate complex asset models and exotic payoff structures, but it is also computationally highly burdensome, particularly in a multi-period setting, when inner simulation paths are required at each time step of each outer level scenario. In this study, we propose and analyze a two-stage simulation procedure that efficiently estimates the conditional tail expectation of cost of a dynamic hedging program for a Variable Annuity Guaranteed Minimum Withdrawal Benefit (GMWB), under a multi-period nested simulation. In each of the two stages, the method re-uses the same set of inner level simulation paths for each outer scenario at each time point, using a likelihood ratio method to re-weight the probabilities of each individual path for the different outer scenarios. Our numerical study shows that our two-stage, likelihood ratio weighted procedure can offer a very significant improvement in efficiency, of the order of 95% as measured by the RMSE, compared with a standard nested simulation with the same computational cost. We acknowledge the support of the Natural Sciences and Engineering Research Council of Canada, funding reference number 03754 (Hardy) and 03755 (Feng). This work was also supported by the Society of Actuaries through a Center of Actuarial Excellence Research Grant and through the Hickman Scholarship held by Ou Dang. Ou Dang has also received support from the Ontario Graduate Scholarship. 2023-02-13T05:57:11Z 2023-02-13T05:57:11Z 2023 Journal Article Dang, O., Feng, M. & Hardy, M. R. (2023). Two-stage nested simulation of tail risk measurement: a likelihood ratio approach. Insurance: Mathematics and Economics, 108, 1-24. https://dx.doi.org/10.1016/j.insmatheco.2022.10.002 0167-6687 https://hdl.handle.net/10356/164744 10.1016/j.insmatheco.2022.10.002 2-s2.0-85141486431 108 1 24 en Insurance: Mathematics and Economics © 2022 Elsevier B.V. All rights reserved. |
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Business::Finance::Risk management Nested Simulation Likelihood Ratio Method Dang, Ou Feng, Mingbin Hardy, Mary R. Two-stage nested simulation of tail risk measurement: a likelihood ratio approach |
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Estimating tail risk measures is an important task in many financial and actuarial applications and often requires nested simulations, with the outer simulations representing real world scenarios, and the inner simulations typically used for risk neutral pricing or conditional risk measurement. The standard nested simulation method is highly flexible, able to incorporate complex asset models and exotic payoff structures, but it is also computationally highly burdensome, particularly in a multi-period setting, when inner simulation paths are required at each time step of each outer level scenario. In this study, we propose and analyze a two-stage simulation procedure that efficiently estimates the conditional tail expectation of cost of a dynamic hedging program for a Variable Annuity Guaranteed Minimum Withdrawal Benefit (GMWB), under a multi-period nested simulation. In each of the two stages, the method re-uses the same set of inner level simulation paths for each outer scenario at each time point, using a likelihood ratio method to re-weight the probabilities of each individual path for the different outer scenarios. Our numerical study shows that our two-stage, likelihood ratio weighted procedure can offer a very significant improvement in efficiency, of the order of 95% as measured by the RMSE, compared with a standard nested simulation with the same computational cost. |
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Nanyang Business School |
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Nanyang Business School Dang, Ou Feng, Mingbin Hardy, Mary R. |
| format |
Article |
| author |
Dang, Ou Feng, Mingbin Hardy, Mary R. |
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Dang, Ou |
| title |
Two-stage nested simulation of tail risk measurement: a likelihood ratio approach |
| title_short |
Two-stage nested simulation of tail risk measurement: a likelihood ratio approach |
| title_full |
Two-stage nested simulation of tail risk measurement: a likelihood ratio approach |
| title_fullStr |
Two-stage nested simulation of tail risk measurement: a likelihood ratio approach |
| title_full_unstemmed |
Two-stage nested simulation of tail risk measurement: a likelihood ratio approach |
| title_sort |
two-stage nested simulation of tail risk measurement: a likelihood ratio approach |
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2023 |
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https://hdl.handle.net/10356/164744 |
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1772828648421720064 |