A k-Inflated Negative Binomial Mixture Regression Model: Application to Rate--Making Systems

Abstract

This article introduces a k-Inflated Negative Binomial mixture distribution/regression model as a more flexible alternative to zero-inflated Poisson distribution/regression model. An EM algorithm has been employed to estimate the model's parameters. Then, such new model along with a Pareto mixture model have been employed to design an optimal rate--making system. Namely, this article employs number/size of reported claims of Iranian third party insurance dataset. Then, it employs the k-Inflated Negative Binomial mixture distribution/regression model as well as other well developed counting models along with a Pareto mixture model to model frequency/severity of reported claims in Iranian third party insurance dataset. Such numerical illustration shows that: ( 1) the k-Inflated Negative Binomial mixture models provide more fair rate/pure premiums for policyholders under a rate--making system; and ( 2) in the situation that number of reported claims uniformly distributed in past experience of a policyholder (for instance k1=1 and k2=1 instead of k1=0 and k2=2). The rate/pure premium under the k-Inflated Negative Binomial mixture models are more appealing and acceptable.