Modelling antimicrobial prescriptions in Scotland: A spatio-temporal clustering approach
In 2016 the British government acknowledged the importance of reducing antimicrobial prescriptions in order to avoid the long-term harmful effects of over-prescription. Prescription needs are highly dependent on factors that have a spatio-temporal component, such as the presence of a bacterial outbreak and the population density. In this context, density-based clustering algorithms are flexible tools to analyse data by searching for group structures. The case of Scotland presents an additional challenge due to the diversity of population densities under the area of study. We present here a spatio-temporal clustering approach for highlighting the behaviour of general practitioners (GPs) in Scotland. Particularly, we consider the density-based spatial clustering of applications with noise algorithm (DBSCAN) due to its ability to include both spatial and temporal data, as well as its flexibility to be extended with further variables. We extend this approach into two directions. For the temporal analysis, we use dynamic time warping to measure the dissimilarity between warped and shifted time series. For the spatial component, we introduce a new way of weighting spatial distances with continuous weights derived from a KDE-based process. This makes our approach suitable for cases involving spatial clusters with differing densities, which is a well-known issue for the original DBSCAN. We show an improved performance compared to both the latter and the popular k-means algorithm on simulated, as well as empirical data, presenting evidence for the ability to cluster more elements correctly and deliver actionable insights.
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