A Framework for Group Action-Based Multi-Signatures and Applications to LESS, MEDS, and ALTEQ

Giuseppe D'Alconzo; Andrea Flamini; Alessio Meneghetti; Edoardo Signorini

Paper 2024/1691

A Framework for Group Action-Based Multi-Signatures and Applications to LESS, MEDS, and ALTEQ

Giuseppe D'Alconzo

, Polytechnic University of Turin

Andrea Flamini

, University of Trento

Alessio Meneghetti

, University of Trento

Edoardo Signorini

, Telsy, Polytechnic University of Turin

Abstract

A multi-signature scheme allows a list of signers to sign a common message. They are widely used in scenarios where the same message must be signed and transmitted by users, and, instead of concatenating individual signatures, employing a multi-signature can reduce the data to be sent. In recent years there have been numerous practical proposals in the discrete logarithm setting, such as MuSig2 (CRYPTO'21) for the Schnorr signature. Recently, these attempts have been extended to post-quantum assumptions, with lattice-based proposals such as MuSig-L (CRYPTO'22). Given the growth of group action-based signatures, a natural question is whether a multi-signature can be built on the same models. In this work, we present the first construction of such a primitive relying on group action assumptions. We obtain a 3-round scheme achieving concurrent security in the ROM. Moreover, we instantiate it using the three candidates to the additional post-quantum NIST's call, namely LESS, MEDS and ALTEQ, obtaining a good compression rate for different parameters sets.

Metadata

Available format(s): PDF
Category: Cryptographic protocols
Publication info: A major revision of an IACR publication in PKC 2025
Keywords: multi-signature cryptographic group actions code equivalence
Contact author(s): giuseppe dalconzo @ polito it
andrea flamini @ unitn it
alessio meneghetti @ unitn it
edoardo signorini @ telsy it
History: 2025-02-26: last of 2 revisions; 2024-10-17: received; See all versions
Short URL: https://ia.cr/2024/1691
License: CC BY

BibTeX

@misc{cryptoeprint:2024/1691,
      author = {Giuseppe D'Alconzo and Andrea Flamini and Alessio Meneghetti and Edoardo Signorini},
      title = {A Framework for Group Action-Based Multi-Signatures and Applications to {LESS}, {MEDS}, and {ALTEQ}},
      howpublished = {Cryptology {ePrint} Archive, Paper 2024/1691},
      year = {2024},
      url = {https://eprint.iacr.org/2024/1691}
}