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Estimating Identification Disclosure Risk Using Mixed Membership Models

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  • Daniel Manrique-Vallier
  • Jerome P. Reiter

Abstract

Statistical agencies and other organizations that disseminate data are obligated to protect data subjects’ confidentiality. For example, ill-intentioned individuals might link data subjects to records in other databases by matching on common characteristics (keys). Successful links are particularly problematic for data subjects with combinations of keys that are unique in the population. Hence, as part of their assessments of disclosure risks, many data stewards estimate the probabilities that sample uniques on sets of discrete keys are also population uniques on those keys. This is typically done using log-linear modeling on the keys. However, log-linear models can yield biased estimates of cell probabilities for sparse contingency tables with many zero counts, which often occurs in databases with many keys. This bias can result in unreliable estimates of probabilities of uniqueness and, hence, misrepresentations of disclosure risks. We propose an alternative to log-linear models for datasets with sparse keys based on a Bayesian version of grade of membership (GoM) models. We present a Bayesian GoM model for multinomial variables and offer a Markov chain Monte Carlo algorithm for fitting the model. We evaluate the approach by treating data from a recent U.S. Census Bureau public use microdata sample as a population, taking simple random samples from that population, and benchmarking estimated probabilities of uniqueness against population values. Compared to log-linear models, GoM models provide more accurate estimates of the total number of uniques in the samples. Additionally, they offer record-level predictions of uniqueness that dominate those based on log-linear models. This article has online supplementary materials.

Suggested Citation

  • Daniel Manrique-Vallier & Jerome P. Reiter, 2012. "Estimating Identification Disclosure Risk Using Mixed Membership Models," Journal of the American Statistical Association, Taylor & Francis Journals, vol. 107(500), pages 1385-1394, December.
    • Handle: RePEc:taf:jnlasa:v:107:y:2012:i:500:p:1385-1394
    DOI: 10.1080/01621459.2012.710508
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    Cited by:

    1. Shlomo, Natalie & Skinner, Chris, 2022. "Measuring risk of re-identification in microdata: state-of-the art and new directions," LSE Research Online Documents on Economics 117168, London School of Economics and Political Science, LSE Library.
    2. Camerlenghi, Federico & Favaro, Stefano & Naulet, Zacharie & Panero, Francesca, 2021. "Optimal disclosure risk assessment," LSE Research Online Documents on Economics 117304, London School of Economics and Political Science, LSE Library.
    3. Favaro, Stefano & Panero, Francesca & Rigon, Tommaso, 2021. "Bayesian nonparametric disclosure risk assessment," LSE Research Online Documents on Economics 117305, London School of Economics and Political Science, LSE Library.
    4. Cinzia Carota & Maurizio Filippone & Silvia Polettini, 2022. "Assessing Bayesian Semi‐Parametric Log‐Linear Models: An Application to Disclosure Risk Estimation," International Statistical Review, International Statistical Institute, vol. 90(1), pages 165-183, April.
    5. Natalie Shlomo & Chris Skinner, 2022. "Measuring risk of re‐identification in microdata: State‐of‐the art and new directions," Journal of the Royal Statistical Society Series A, Royal Statistical Society, vol. 185(4), pages 1644-1662, October.

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