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ROAST: Robust Asynchronous Schnorr Threshold Signatures

Tim Ruffing, Viktoria Ronge, Elliott Jin, Jonas Schneider-Bensch, Dominique Schröder

2022Proceedings of the 2022 ACM SIGSAC Conference on Computer and Communications Security53 citationsDOIOpen Access PDF

Abstract

Bitcoin and other cryptocurrencies have recently introduced support for Schnorr signatures whose cleaner algebraic structure, as compared to ECDSA, allows for simpler and more practical constructions of highly demanded ''t-of-n'' threshold signatures. However, existing Schnorr threshold signature schemes still fall short of the needs of real-world applications due to their assumption that the network is synchronous and due to their lack of robustness, i.e., the guarantee that t honest signers are able to obtain a valid signature even in the presence of other malicious signers who try to disrupt the protocol. This hinders the adoption of threshold signatures in the cryptocurrency ecosystem, e.g., in second-layer protocols built on top of cryptocurrencies.

Topics & Concepts

Computer scienceRobustness (evolution)Asynchronous communicationSignature (topology)Elliptic Curve Digital Signature AlgorithmDigital signatureSchnorr signatureTheoretical computer scienceComputer networkPublic-key cryptographyComputer securityMathematicsEncryptionElliptic curve cryptographyBlind signatureGeometryHash functionGeneChemistryBiochemistryCryptography and Data SecurityBlockchain Technology Applications and SecurityDistributed systems and fault tolerance
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