Abstract
Standardized longevity risk transfers often involve modeling mortality rates of multiple populations. Some researchers have found that mortality indexes of selected countries are cointegrated, meaning that a linear relationship exists between the indexes. Vector error correction model (VECM) was used to incorporate this relation, thereby forcing the mortality rates of multiple populations to revert to a long-run equilibrium. However, the long-run equilibrium may change over time. It is crucial to incorporate these changes such that mortality dependence is adequately modeled. In this paper, we develop a framework to examine the presence of equilibrium changes and to incorporate these changes into the mortality model. In particular, we focus on equilibrium changes caused by threshold effect, the phenomenon that mortality indexes alternate between different VECMs depending on the value of a threshold variable. Our framework comprises two steps. In the first step, a statistical test is performed to examine the presence of threshold effect in the VECM for multiple mortality indexes. In the second step, threshold vector error correction model (TVECM) is fitted to the mortality indexes and model adequacy is evaluated. We illustrate this framework with the mortality data of England and Wales (EW) and Canadian populations. We further apply the TVECM to forecast future mortalities and price an illustrative longevity bond with multivariate Wang transform. Our numerical results show that TVECM predicted much faster mortality improvement for EW and Canada than single-regime VECM and thus the incorporation of threshold effect significant increases longevity bond price.
Highlights
According to a recent report by World Health Organization (2015), global life expectancy raised dramatically from 64 years in 1990 to 71 years in 2013
Our numerical results show that threshold vector error correction model (TVECM) predicted much faster mortality improvement for England and Wales (EW) and Canada than single-regime
We focus on the equilibrium changes caused by threshold effect, the phenomenon that mortality indexes alternate between different vector error correction model (VECM) depending on the value of a threshold variable
Summary
According to a recent report by World Health Organization (2015), global life expectancy raised dramatically from 64 years in 1990 to 71 years in 2013. The global aging trend is primarily attributed to greater consciousness of healthy lifestyles, development of new medicines, and improvement of health systems in many countries. Milidonis and Efthymiou (2017) identified causation from wealth to mortality improvement in Asia-Pacific countries and revealed that mortality improvements appear faster in more developed than less developed countries. Increased life expectancy is desirable for individuals, this global trend poses significant financial burdens to social security systems, annuity providers, and pension plan sponsors. As a result, hedging of longevity risk has become an important issue which has attracted much discussion in recent years. Longevity risk hedge can be categorized into customized hedge or standardized hedge
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