Guided by the principles of differential privacy protection the Australian Bureau of Statistics modifies the data summaries from the Australian Census provided through TableBuilder to researchers at approved institutions. This modification algorithm includes the injection of a small degree of artificial noise to every nonzero cell count followed by the suppression of very small cell counts to zero. Researchers working with small area TableBuilder outputs with a high suppression fraction have proposed various algorithmic solutions to reconciling these with less suppressed outputs from larger enclosing areas. Here we propose that a Bayesian, likelihood-based statistical approach in which the perturbation algorithm itself is explicitly represented is well suited to analyses with such randomly perturbed data. Using both real (TableBuilder) and mock datasets representing dwelling classifications in the Perth Greater Capital City Area we demonstrate the feasibility and utility of multi-scale Bayesian reconstruction of modified cell counts in a spatial setting.
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