Statistical Modelling 10 (2010), 177–196
Smooth models of mortality with period shocks
JG Kirkby and ID Currie
Department of Actuarial Mathematics and Statistics and
the Maxwell Institute for Mathematical Sciences
Heriot-Watt University
Edinburgh, EH14 4AS
UK
eMail: I.D.Currie@hw.ac.uk
Abstract:
We suppose that we have mortality data arranged in two tables: one of deaths
and the other of exposures to the risk of death, each classified by age at
death and year of death. It is natural to suppose that there is a smooth
underlying force of mortality, the mortality surface, that varies with age
and year (or period). However, observed mortality is subject to more than
stochastic deviation from this smooth surface. For example, flu epidemics,
hot summers or cold winters can disproportionately affect the mortality of
certain age groups in particular years. We call such an effect a period shock.
We describe the mortality surface with an additive model with two components:
the underlying smooth surface is modelled with two-dimensional P-splines and
the period shocks are modelled with one-dimensional P-splines in the age
direction, one P-spline for each year. This large regression model is written
as an additive generalized linear array model and this enables the
computations to be performed efficiently. We illustrate our methods with
Swedish mortality data taken from the Human Mortality Database.
Keywords:
generalized linear array model; mortality; period shock; P-splines; smoothing
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