Why Does a Human Die? A Structural Approach to Cohort-Wise Mortality Prediction under Survival Energy Hypothesis

Yasutaka Shimizu; Yuki Minami; Ryunosuke Ito

doi:10.1017/asb.2020.32

Why Does a Human Die? A Structural Approach to Cohort-Wise Mortality Prediction under Survival Energy Hypothesis

Yasutaka Shimizu^*, Yuki Minami, Ryunosuke Ito

^*Corresponding author for this work

School of Fundamental Science and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

We propose a new approach to mortality prediction under survival energy hypothesis (SEH). We assume that a human is born with initial energy, which changes stochastically in time and the human dies when the energy vanishes. Then, the time of death is represented by the first hitting time of the survival energy (SE) process to zero. This study assumes that SE follows a time-inhomogeneous diffusion process and defines the mortality function, which is the first hitting time distribution function of the SE process. Although SEH is a fictitious construct, we illustrate that this assumption has the potential to yield a good parametric family of cumulative probability of death, and the parametric family yields surprisingly good predictions for future mortality rates.

Original language	English
Pages (from-to)	191-219
Number of pages	29
Journal	ASTIN Bulletin
Volume	51
Issue number	1
DOIs	https://doi.org/10.1017/asb.2020.32
Publication status	Published - 2021 Jan

Keywords

Diffusion processes
Mortality prediction
Ruin theory
Survival energy hypothesis
The first passage time

ASJC Scopus subject areas

Accounting
Finance
Economics and Econometrics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1017/asb.2020.32

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abstract = "We propose a new approach to mortality prediction under survival energy hypothesis (SEH). We assume that a human is born with initial energy, which changes stochastically in time and the human dies when the energy vanishes. Then, the time of death is represented by the first hitting time of the survival energy (SE) process to zero. This study assumes that SE follows a time-inhomogeneous diffusion process and defines the mortality function, which is the first hitting time distribution function of the SE process. Although SEH is a fictitious construct, we illustrate that this assumption has the potential to yield a good parametric family of cumulative probability of death, and the parametric family yields surprisingly good predictions for future mortality rates. ",

keywords = "Diffusion processes, Mortality prediction, Ruin theory, Survival energy hypothesis, The first passage time",

author = "Yasutaka Shimizu and Yuki Minami and Ryunosuke Ito",

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AU - Shimizu, Yasutaka

AU - Minami, Yuki

AU - Ito, Ryunosuke

N1 - Funding Information: The authors would like to express our sincere thanks to the anonymous referees for their comments and instructions, which have substantially improved the paper. This study was partially supported by JSPS KAKENHI Grant Number JP18H00836. Publisher Copyright: © 2020 by Astin Bulletin. All rights reserved.

PY - 2021/1

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N2 - We propose a new approach to mortality prediction under survival energy hypothesis (SEH). We assume that a human is born with initial energy, which changes stochastically in time and the human dies when the energy vanishes. Then, the time of death is represented by the first hitting time of the survival energy (SE) process to zero. This study assumes that SE follows a time-inhomogeneous diffusion process and defines the mortality function, which is the first hitting time distribution function of the SE process. Although SEH is a fictitious construct, we illustrate that this assumption has the potential to yield a good parametric family of cumulative probability of death, and the parametric family yields surprisingly good predictions for future mortality rates.

AB - We propose a new approach to mortality prediction under survival energy hypothesis (SEH). We assume that a human is born with initial energy, which changes stochastically in time and the human dies when the energy vanishes. Then, the time of death is represented by the first hitting time of the survival energy (SE) process to zero. This study assumes that SE follows a time-inhomogeneous diffusion process and defines the mortality function, which is the first hitting time distribution function of the SE process. Although SEH is a fictitious construct, we illustrate that this assumption has the potential to yield a good parametric family of cumulative probability of death, and the parametric family yields surprisingly good predictions for future mortality rates.

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KW - Mortality prediction

KW - Ruin theory

KW - Survival energy hypothesis

KW - The first passage time

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Why Does a Human Die? A Structural Approach to Cohort-Wise Mortality Prediction under Survival Energy Hypothesis

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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