Búsqueda

An Individual risk model for premium calculation based on Quantile: a comparison between generalized linear models and quantile regression

Recurso electrónico / Electronic resource
Registro MARC
Tag12Valor
LDR  00000cab a2200000 4500
001  MAP20200004905
003  MAP
005  20200221135722.0
008  200217e20191202usa|||p |0|||b|eng d
040  ‎$a‎MAP‎$b‎eng‎$d‎MAP
084  ‎$a‎6
100  ‎$0‎MAPA20180012044‎$a‎Baione, Fabio
24513‎$a‎An Individual risk model for premium calculation based on Quantile: a comparison between generalized linear models and quantile regression‎$c‎Fabio Baione and Davide Biancalana
520  ‎$a‎This article deals with the use of quantile regression and generalized linear models for a premium calculation based on quantiles. A premium principle is a functional that assigns a usually loaded premium to any distribution of claims. The loaded premium is generally greater than the expected value of the loss and the difference is considered to be a risk margin or a safety loading. The failure of a right charge of individual risk rate exposes the insurer to adverse selection and, consequently, to deteriorating financial results. The article aim is to define the individual pure premium rates and the corresponding risk margin in balance with some profit or solvency constraints. We develop a ratemaking process based on a two-part model using quantile regression and a gamma generalized linear model, respectively, in order to estimate the claim's severity quantiles. Generalized linear models focus on the estimation of the mean of the conditional loss distribution but have some drawbacks in assessing distribution moments other than the mean and are very sensitive to outliers. On the contrary, quantile regression exceeds these limits leading to the estimate of conditional quantiles and is more accurate for a better measurement of the variability of a risk class. The proposed methodology for premium calculation allows us to find further limits of the generalized linear model as the solution we found, under specific assumptions for a generalized linear model, is equivalent to the application of the expected value premium principle. Finally, the methodology we suggest for the two-part quantile regression allows reducing the practical issue of overmodeling and over-parameterization with respect to other proposals on the same topic.
650 4‎$0‎MAPA20080586454‎$a‎Modelos analíticos
650 4‎$0‎MAPA20080545260‎$a‎Riesgos
650 4‎$0‎MAPA20080589356‎$a‎Cálculo de la prima
650 4‎$0‎MAPA20080573386‎$a‎Prima de riesgo
650 4‎$0‎MAPA20160001679‎$a‎Modelos lineales generalizados
650 4‎$0‎MAPA20080602437‎$a‎Matemática del seguro
651 1‎$0‎MAPA20080638337‎$a‎Estados Unidos
7001 ‎$0‎MAPA20200003441‎$a‎Biancalana, Davide
7730 ‎$w‎MAP20077000239‎$t‎North American actuarial journal‎$d‎Schaumburg : Society of Actuaries, 1997-‎$x‎1092-0277‎$g‎02/12/2019 Tomo 23 Número 4 - 2019 , p. 573- 590