Ronald de Wolf scite author profile

Classical fingerprinting associates with each string a shorter string (its fingerprint), such that, with high probability, any two distinct strings can be distinguished by comparing their fingerprints alone. The fingerprints can be exponentially smaller than the original strings if the parties preparing the fingerprints share a random key, but not if they only have access to uncorrelated random sources. In this paper we show that fingerprints consisting of quantum information can be made exponentially smaller than the original strings without any correlations or entanglement between the parties: we give a scheme where the quantum fingerprints are exponentially shorter than the original strings and we give a test that distinguishes any two unknown quantum fingerprints with high probability. Our scheme implies an exponential quantum/classical gap for the equality problem in the simultaneous message passing model of communication complexity. We optimize several aspects of our scheme.

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Quantum lower bounds by polynomials

Beals

Buhrman

Cleve

et al. 2001

J. ACM

531

692

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Complexity measures and decision tree complexity: a survey

Buhrman

Wolf

2002

Theoretical Computer Science

562

549

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Ronald de Wolf

Quantum Fingerprinting

Quantum lower bounds by polynomials

Complexity measures and decision tree complexity: a survey

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