Yuval Mintz scite author profile

Yuval Mintz

4Publications

23Citation Statements Received

94Citation Statements Given

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Ben-Gurion University of the Negev

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Secret Sharing Schemes for Very Dense Graphs

Beimel

FarríS

Mintz

2012

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A secret-sharing scheme realizes a graph if every two vertices connected by an edge can reconstruct the secret while every independent set in the graph does not get any information on the secret. Similar to secret-sharing schemes for general access structures, there are gaps between the known lower bounds and upper bounds on the share size for graphs. Motivated by the question of what makes a graph "hard" for secret-sharing schemes (that is, require large shares), we study very dense graphs, that is, graphs whose complement contains few edges. We show that if a graph with n vertices contains n 2 − n 1+β edges for some constant 0 ≤ β < 1, then there is a scheme realizing the graph with total share size of O(n 5/4+3β/4 ). This should be compared to O(n 2 / log n) -the best upper bound known for the share size in general graphs. Thus, if a graph is "hard", then the graph and its complement should have many edges. We generalize these results to nearly complete k-homogeneous access structures for a constant k. To complement our results, we prove lower bounds for secret-sharing schemes realizing very dense graphs, e.g., for linear secret-sharing schemes we prove a lower bound of Ω(n 1+β/2 ) for a graph with n 2 − n 1+β edges.

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Linear Secret-Sharing Schemes for Forbidden Graph Access Structures

Beimel

Farràs

Mintz

et al. 2017

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Secret-Sharing Schemes for Very Dense Graphs

2014

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Linear Secret-Sharing Schemes for Forbidden Graph Access Structures

Beimel

Farràs

Mintz

et al. 2022

IEEE Trans. Inform. Theory

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Yuval Mintz

Secret Sharing Schemes for Very Dense Graphs

Linear Secret-Sharing Schemes for Forbidden Graph Access Structures

Secret-Sharing Schemes for Very Dense Graphs

Linear Secret-Sharing Schemes for Forbidden Graph Access Structures

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