Risk averse decision making under catastrophic risk

Bogdan Grechuk; Michael Zabarankin

doi:10.1016/j.ejor.2014.04.042

Risk averse decision making under catastrophic risk

Bogdan Grechuk, Michael Zabarankin

Department of Mathematical Sciences

University of Leicester

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

14 Scopus citations

Abstract

A nonstandard probabilistic setting for modeling of the risk of catastrophic events is presented. It allows random variables to take on infinitely large negative values with non-zero probability, which correspond to catastrophic consequences unmeasurable in monetary terms, e.g. loss of human lives. Thanks to this extension, the safety-first principle is proved to be consistent with traditional axioms on a preference relation, such as monotonicity, continuity, and risk aversion. Also, a robust preference relation is introduced, and an example of a monotone robust preference relation, sensitive to catastrophic events in the sense of Chichilnisky (2002), is provided. The suggested setting is demonstrated in evaluating nuclear power plant projects when the probability of a catastrophe is itself a random variable.

Original language	English
Pages (from-to)	166-176
Number of pages	11
Journal	European Journal of Operational Research
Volume	239
Issue number	1
DOIs	https://doi.org/10.1016/j.ejor.2014.04.042
State	Published - 16 Nov 2014

Keywords

Catastrophic risk
Decision making
Nuclear power plant
Risk aversion
Safety-first principle

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10.1016/j.ejor.2014.04.042

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abstract = "A nonstandard probabilistic setting for modeling of the risk of catastrophic events is presented. It allows random variables to take on infinitely large negative values with non-zero probability, which correspond to catastrophic consequences unmeasurable in monetary terms, e.g. loss of human lives. Thanks to this extension, the safety-first principle is proved to be consistent with traditional axioms on a preference relation, such as monotonicity, continuity, and risk aversion. Also, a robust preference relation is introduced, and an example of a monotone robust preference relation, sensitive to catastrophic events in the sense of Chichilnisky (2002), is provided. The suggested setting is demonstrated in evaluating nuclear power plant projects when the probability of a catastrophe is itself a random variable.",

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AB - A nonstandard probabilistic setting for modeling of the risk of catastrophic events is presented. It allows random variables to take on infinitely large negative values with non-zero probability, which correspond to catastrophic consequences unmeasurable in monetary terms, e.g. loss of human lives. Thanks to this extension, the safety-first principle is proved to be consistent with traditional axioms on a preference relation, such as monotonicity, continuity, and risk aversion. Also, a robust preference relation is introduced, and an example of a monotone robust preference relation, sensitive to catastrophic events in the sense of Chichilnisky (2002), is provided. The suggested setting is demonstrated in evaluating nuclear power plant projects when the probability of a catastrophe is itself a random variable.

KW - Catastrophic risk

KW - Decision making

KW - Nuclear power plant

KW - Risk aversion

KW - Safety-first principle

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Risk averse decision making under catastrophic risk

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Keywords

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