The Distribution of the Discounted Compound PH-Renewal Process

The family of phase–type (PH) distributions has many useful properties such as closure under convolution and mixtures, as well as rational Laplace transforms. PH distributions are widely used in applications of stochastic models such as in queueing systems, biostatistics and engineering. They are a...

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Main Author: Wang, Ya Fang
Format: Others
Published: 2010
Online Access:http://spectrum.library.concordia.ca/6973/1/Wang_PhD_S2011.pdf
Wang, Ya Fang <http://spectrum.library.concordia.ca/view/creators/Wang=3AYa_Fang=3A=3A.html> (2010) The Distribution of the Discounted Compound PH-Renewal Process. PhD thesis, Concordia University.
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-QMG.69732013-10-22T03:44:35Z The Distribution of the Discounted Compound PH-Renewal Process Wang, Ya Fang The family of phase–type (PH) distributions has many useful properties such as closure under convolution and mixtures, as well as rational Laplace transforms. PH distributions are widely used in applications of stochastic models such as in queueing systems, biostatistics and engineering. They are also applied to insurance risk, such as in ruin theory. In this thesis, we extend the work of Wang (2007), that discussed the moment generating function (mgf) of discounted compound sums with PH inter–arrival times under a net interest δ ̸= 0. Here we focus on the distribution of the discounted compound sums. This represents a generalization of the classical risk model for which δ = 0. A differential equation system is derived for the mgf of a discounted compound sum with PH inter–arrival times and any claim severity if its mgf exists. For some PH inter–arrival times, we can further simplify this differential equation system. If inter–arrival times have a PH distribution of order 2, then second–order homogeneous differential equations are developed. By inverting the corresponding Laplace transforms, the extended density functions and cumulative distribution functions are also obtained. In addition, the series and transformation methods for solving differential equations is proposed, when the mean of inter–arrival times is small. Applications such as stop–loss premiums, and risk measures such as VaR and CTE are investigated. These are compared for different inter–arrival times. Some numerical examples are given to illustrate the results. Finally, asymptotical results are discussed, when the mean inter–arrival time goes to zero. For a fixed time, the asymptotic normal distribution is derived for discounted compound renewal sums. 2010-12-01 Thesis NonPeerReviewed application/pdf http://spectrum.library.concordia.ca/6973/1/Wang_PhD_S2011.pdf Wang, Ya Fang <http://spectrum.library.concordia.ca/view/creators/Wang=3AYa_Fang=3A=3A.html> (2010) The Distribution of the Discounted Compound PH-Renewal Process. PhD thesis, Concordia University. http://spectrum.library.concordia.ca/6973/
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description The family of phase–type (PH) distributions has many useful properties such as closure under convolution and mixtures, as well as rational Laplace transforms. PH distributions are widely used in applications of stochastic models such as in queueing systems, biostatistics and engineering. They are also applied to insurance risk, such as in ruin theory. In this thesis, we extend the work of Wang (2007), that discussed the moment generating function (mgf) of discounted compound sums with PH inter–arrival times under a net interest δ ̸= 0. Here we focus on the distribution of the discounted compound sums. This represents a generalization of the classical risk model for which δ = 0. A differential equation system is derived for the mgf of a discounted compound sum with PH inter–arrival times and any claim severity if its mgf exists. For some PH inter–arrival times, we can further simplify this differential equation system. If inter–arrival times have a PH distribution of order 2, then second–order homogeneous differential equations are developed. By inverting the corresponding Laplace transforms, the extended density functions and cumulative distribution functions are also obtained. In addition, the series and transformation methods for solving differential equations is proposed, when the mean of inter–arrival times is small. Applications such as stop–loss premiums, and risk measures such as VaR and CTE are investigated. These are compared for different inter–arrival times. Some numerical examples are given to illustrate the results. Finally, asymptotical results are discussed, when the mean inter–arrival time goes to zero. For a fixed time, the asymptotic normal distribution is derived for discounted compound renewal sums.
author Wang, Ya Fang
spellingShingle Wang, Ya Fang
The Distribution of the Discounted Compound PH-Renewal Process
author_facet Wang, Ya Fang
author_sort Wang, Ya Fang
title The Distribution of the Discounted Compound PH-Renewal Process
title_short The Distribution of the Discounted Compound PH-Renewal Process
title_full The Distribution of the Discounted Compound PH-Renewal Process
title_fullStr The Distribution of the Discounted Compound PH-Renewal Process
title_full_unstemmed The Distribution of the Discounted Compound PH-Renewal Process
title_sort distribution of the discounted compound ph-renewal process
publishDate 2010
url http://spectrum.library.concordia.ca/6973/1/Wang_PhD_S2011.pdf
Wang, Ya Fang <http://spectrum.library.concordia.ca/view/creators/Wang=3AYa_Fang=3A=3A.html> (2010) The Distribution of the Discounted Compound PH-Renewal Process. PhD thesis, Concordia University.
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