Adam Sealfon scite author profile

Adam Sealfon

4Publications

91Citation Statements Received

45Citation Statements Given

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Affiliations

Berkeley College, IIT@MIT, University of California, Berkeley

Publications

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Shortest Paths and Distances with Differential Privacy

Sealfon

2016

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We introduce a model for differentially private analysis of weighted graphs in which the graph topology (V, E) is assumed to be public and the private information consists only of the edge weights w : E → R + . This can express hiding congestion patterns in a known system of roads. Differential privacy requires that the output of an algorithm provides little advantage, measured by privacy parameters ǫ and δ, for distinguishing between neighboring inputs, which are thought of as inputs that differ on the contribution of one individual. In our model, two weight functions w, w ′ are considered to be neighboring if they have ℓ 1 distance at most one. We study the problems of privately releasing a short path between a pair of vertices and of privately releasing approximate distances between all pairs of vertices. We are concerned with the approximation error, the difference between the length of the released path or released distance and the length of the shortest path or actual distance.For the problem of privately releasing a short path between a pair of vertices, we prove a lower bound of Ω(|V|) on the additive approximation error for fixed privacy parameters ǫ, δ. We provide a differentially private algorithm that matches this error bound up to a logarithmic factor and releases paths between all pairs of vertices, not just a single pair. The approximation error achieved by our algorithm can be bounded by the number of edges on the shortest path, so we achieve better accuracy than the worst-case bound for pairs of vertices that are connected by a low-weight path consisting of o(|V|) vertices.For the problem of privately releasing all-pairs distances, we show that for trees we can release all-pairs distances with approximation error O(log 2.5 |V|) for fixed privacy parameters. For arbitrary bounded-weight graphs with edge weights in [0, M ] we can release all distances with approximation errorÕ( |V|M ).

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Fault tolerant additive and (μ,α)-spanners

Braunschvig

Chechik

Peleg

et al. 2015

Theoretical Computer Science

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Efficiently Estimating Erdos-Renyi Graphs with Node Differential Privacy

Sealfon¹,

Ullman²

2019

Preprint

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We give a simple, computationally efficient, and node-differentially-private algorithm for estimating the parameter of an Erdős-Rényi graph-that is, estimating p in a G(n, p)-with near-optimal accuracy. Our algorithm nearly matches the information-theoretically optimal exponential-time algorithm for the same problem due to Borgs et al. (FOCS 2018). More generally, we give an optimal, computationally efficient, private algorithm for estimating the edge-density of any graph whose degree distribution is concentrated on a small interval.

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Efficiently Estimating Erdos-Renyi Graphs with Node Differential Privacy

Sealfon

Ullman

2021

JPC

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We give a simple, computationally efficient, and node-differentially-private algorithm for estimating the parameter of an Erdos-Renyi graph---that is, estimating p in a G(n,p)---with near-optimal accuracy. Our algorithm nearly matches the information-theoretically optimal exponential-time algorithm for the same problem due to Borgs et al. (FOCS 2018). More generally, we give an optimal, computationally efficient, private algorithm for estimating the edge-density of any graph whose degree distribution is concentrated in a small interval.

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Adam Sealfon

Shortest Paths and Distances with Differential Privacy

Fault tolerant additive and (μ,α)-spanners

Efficiently Estimating Erdos-Renyi Graphs with Node Differential Privacy

Efficiently Estimating Erdos-Renyi Graphs with Node Differential Privacy

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