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Publication detail
DOBIÁŠ, P. MALINA, L. ILGNER, P. DZURENDA, P.
Original Title
On Efficiency and Usability of Group Signatures on Smartphone and Single-board Platforms
Type
conference paper
Language
English
Original Abstract
With increasing digitalization and omnipresent data sensing, security and users’ privacy become essential requirements in new digital services. Group Signatures (GS) or also known as Anonymous Digital Signatures (ADS) are often used as a core Privacy-Enhancing Technology (PET) in order to keep users’ privacy during their access and/or authentication phases within ensuring the security of provided services. In this work, we provide a comprehensive assessment of group signatures on various small computing platforms typically used in modern digital services. Based on our analysis of well-established GS schemes and their libraries, we implement and evaluate chosen schemes on both well-known smartphone platforms (i.e., Android, iOS) and on a single-board computer. Our results indicate that current handheld devices can already effectively perform main group signatures’ phases and make these schemes practical for deployment in various privacy-requiring scenarios.
Keywords
Access control, Anonymous Digital Signature, Applied Cryptography, Authentication, Benchmarks, Group Signature, Privacy, Security
Authors
DOBIÁŠ, P.; MALINA, L.; ILGNER, P.; DZURENDA, P.
Released
29. 8. 2023
Publisher
Association for Computing Machinery
Location
New York, NY, USA
ISBN
979-8-4007-0772-8
Book
ARES 2023: Proceedings of the 18th International Conference on Availability, Reliability and Security
Pages from
1
Pages to
9
Pages count
URL
https://dl.acm.org/doi/10.1145/3600160.3605015
Full text in the Digital Library
http://hdl.handle.net/11012/245032
BibTex
@inproceedings{BUT184540, author="Patrik {Dobiáš} and Lukáš {Malina} and Petr {Ilgner} and Petr {Dzurenda}", title="On Efficiency and Usability of Group Signatures on Smartphone and Single-board Platforms", booktitle="ARES 2023: Proceedings of the 18th International Conference on Availability, Reliability and Security", year="2023", pages="1--9", publisher="Association for Computing Machinery", address="New York, NY, USA", doi="10.1145/3600160.3605015", isbn="979-8-4007-0772-8", url="https://dl.acm.org/doi/10.1145/3600160.3605015" }