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Interest and Mortality Randomness in Some Annuities
n = 5, 10, 20, 30. These are displayed in Table 1. Table 4 of P. Boyle (1976) contains some values ... random variables ~,~ are defined by k=l 285 Table 1: E{~Ix } n=5 n=10 ~\a 0.0100 0.0050 0.0025 ...- Authors: John A Beekman, Clinton P Fuelling
- Date: Jan 1991
- Competency: Technical Skills & Analytical Problem Solving
- Publication Name: Actuarial Research Clearing House
- Topics: Annuities>Fixed annuities; Annuities>Individual annuities; Modeling & Statistical Methods>Stochastic models
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A Multirisk Stochastic Process
claims, and p, is the expected value of an individual claim. Consider a stochastic process {N(r), ... developed from the results in Section IV and the TABLE 1 R = 0.0300; 8 = 0.02955880; T = 1 N/M A ...- Authors: John A Beekman, Harry H Panjer, UNKNOWN David Bellhouse, Clinton P Fuelling
- Date: Oct 1978
- Competency: Technical Skills & Analytical Problem Solving
- Publication Name: Transactions of the SOA
- Topics: Modeling & Statistical Methods>Stochastic models
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Comparing Needs for Initial Surplus in Collective Risk Models
consider a Pareto claim distribution, and present a table of values for upper and lower bounds for ¢(u) ... the monograph Hogg-Klugman (1084). A summary table will provide lower and upper bounds on ¢(u) obtained ...- Authors: John A Beekman, Clinton P Fuelling
- Date: Jan 1995
- Competency: External Forces & Industry Knowledge>Actuarial methods in business operations
- Publication Name: Actuarial Research Clearing House
- Topics: Enterprise Risk Management>Risk measurement - ERM