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The Efficient computation and the sensitivity analysis of finite-time ruin probabilities and the estimation of risk-based regulatory capital

Recurso electrónico / Electronic resource
MARC record
Tag12Value
LDR  00000cab a2200000 4500
001  MAP20160024210
003  MAP
005  20160809150032.0
008  160808e20160502usa|||p |0|||b|eng d
040  ‎$a‎MAP‎$b‎spa‎$d‎MAP
084  ‎$a‎6
1001 ‎$0‎MAPA20160009897‎$a‎Joshi, Mark S.
24514‎$a‎The Efficient computation and the sensitivity analysis of finite-time ruin probabilities and the estimation of risk-based regulatory capital‎$c‎Mark S. Joshi, Dan Zhu
520  ‎$a‎Solvency regulations require financial institutions to hold initial capital so that ruin is a rare event. An important practical problem is to estimate the regulatory capital so the ruin probability is at the regulatory level, typically with less than 0.1% over a finite-time horizon. Estimating probabilities of rare events is challenging, since naive estimations via direct simulations of the surplus process is not feasible. In this paper, it is presents a stratified sampling algorithm for estimating finite-time ruin probabilities. It is then estimates the regulatory capital and its sensitivities. These estimates provide information to insurance companies for meeting prudential regulations as well as designing risk management strategies. Numerical examples are presented for the classical model, the Sparre Andersen model with interest and the periodic risk model with interest to demonstrate the speed and efficacy
7001 ‎$0‎MAPA20160009903‎$a‎Zhu, Dan
7730 ‎$w‎MAP20077000420‎$t‎Astin bulletin‎$d‎Belgium : ASTIN and AFIR Sections of the International Actuarial Association‎$x‎0515-0361‎$g‎02/05/2016 Volumen 46 Número 2 - mayo 2016 , p. 431-467