Group signatures present a compromise between the traditional goals of digital
signatures and the need for signer privacy, allowing for the creation of
unforgeable signatures in the name of a group which reveal nothing about the
actual signer's identity beyond their group membership. An important
consideration that is absent in prevalent models is that group membership itself
may be sensitive information, especially if group membership is dynamic, i.e.
membership status may change over time.
We address this issue by introducing formal notions of membership privacy for
fully dynamic group signature schemes, which can be easily integrated into the
most expressive models of group signature security to date. We then propose a
generic construction for a fully dynamic group signature scheme with membership
privacy that is based on signatures with flexible public key (SFPK) and
signatures on equivalence classes (SPSEQ).
Finally, we devise novel techniques for SFPK to construct a highly efficient
standard model scheme (i.e. without random oracles) that provides shorter
signatures than even the non-private state-of-the-art from standard assumptions.
This shows that, although the strictly stronger security notions we introduce
have been completely unexplored in the study of fully dynamic group signatures
so far, they do not come at an additional cost in practice.
History
Preferred Citation
Michael Backes, Lucjan Hanzlik and Jonas Schneider-Bensch. Membership Privacy for Fully Dynamic Group Signatures. In: ACM Conference on Computer and Communications Security (CCS). 2019.
Primary Research Area
Reliable Security Guarantees
Name of Conference
ACM Conference on Computer and Communications Security (CCS)
Legacy Posted Date
2019-10-07
Open Access Type
Unknown
BibTeX
@inproceedings{cispa_all_2974,
title = "Membership Privacy for Fully Dynamic Group Signatures",
author = "Backes, Michael and Hanzlik, Lucjan and Schneider-Bensch, Jonas",
booktitle="{ACM Conference on Computer and Communications Security (CCS)}",
year="2019",
}