2021
DOI: 10.1007/s13385-021-00260-7
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The Gauss2++ model: a comparison of different measure change specifications for a consistent risk neutral and real world calibration

Abstract: Especially in the insurance industry interest rate models play a crucial role, e.g. to calculate the insurance company’s liabilities, performance scenarios or risk measures. A prominant candidate is the 2-Additive-Factor Gaussian Model (Gauss2++ model)—in a different representation also known as the 2-Factor Hull-White model. In this paper, we propose a framework to estimate the model such that it can be applied under the risk neutral and the real world measure in a consistent manner. We first show that any ti… Show more

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Cited by 3 publications
(7 citation statements)
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“…According to Berninger and Pfeiffer (2021), the real-world processes for the state variables satisfy the following stochastic differential equations: where and are the constant speeds of mean reversion, and are the constant diffusion coefficients, while and are the Standard Brownian Motions under the real measure with instantaneous correlation . Furthermore, and are the deterministic mean reversion levels, and we here assume that they are given by step functions: where , , , and are real-valued constants, is a constant time parameter, and is the indicator function.…”
Section: Analysis Frameworkmentioning
confidence: 99%
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“…According to Berninger and Pfeiffer (2021), the real-world processes for the state variables satisfy the following stochastic differential equations: where and are the constant speeds of mean reversion, and are the constant diffusion coefficients, while and are the Standard Brownian Motions under the real measure with instantaneous correlation . Furthermore, and are the deterministic mean reversion levels, and we here assume that they are given by step functions: where , , , and are real-valued constants, is a constant time parameter, and is the indicator function.…”
Section: Analysis Frameworkmentioning
confidence: 99%
“…The zero-coupon bond price formula is also found to be exactly the same as in the real-world case, even though the state variables correspond now to the values of the processes under the risk-neutral measure. As described by Berninger and Pfeiffer (2021), using the explicit solutions of the differential equations both in the real and risk-neutral world, and using equation (11) and (12), the relation between the expected zero-coupon interest rate (continuously compounded) at time for a term of under the real measure and the risk-neutral measure is given by: …”
Section: Analysis Frameworkmentioning
confidence: 99%
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