Differentially Private Sparse Vectors with Low Error, Optimal Space, and Fast Access

Martin Aumüller, Rasmus Pagh, Christian Janos Lebeda

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Abstract

Representing a sparse histogram, or more generally a sparse vector, is a fundamental task in differential privacy. An ideal solution would use space close to information-theoretical lower bounds, have an error distribution that depends optimally on the desired privacy level, and allow fast random access to entries in the vector. However, existing approaches have only achieved two of these three goals.
In this paper we introduce the Approximate Laplace Projection (ALP) mechanism for approximating k-sparse vectors. This mechanism is shown to simultaneously have information-theoretically optimal space (up to constant factors), fast access to vector entries, and error of the same magnitude as the Laplace-mechanism applied to dense vectors. A key new technique is a unary representation of small integers, which we show to be robust against ``randomized response'' noise. This representation is combined with hashing, in the spirit of Bloom filters, to obtain a space-efficient, differentially private representation.
Our theoretical performance bounds are complemented by simulations which show that the constant factors on the main performance parameters are quite small, suggesting practicality of the technique.
OriginalsprogEngelsk
TitelProceedings of the 2021 ACM SIGSAC Conference on Computer and Communications Security
Antal sider14
ForlagAssociation for Computing Machinery
Publikationsdato2021
DOI
StatusUdgivet - 2021
BegivenhedACM Conference on Computer and Communications Security -
Varighed: 15 nov. 2021 → …
Konferencens nummer: 2021

Konference

KonferenceACM Conference on Computer and Communications Security
Nummer2021
Periode15/11/2021 → …

Emneord

  • Differential Privacy
  • Sparse Vectors
  • Approximate Laplace Projection
  • Unary Representation
  • Bloom Filters

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