Key Backup and Recovery for Resilient DID Environment

Jihwan Kim; Pyung Kim; Younho Lee; Daeseon Choi

doi:10.3390/math12060830

Key Backup and Recovery for Resilient DID Environment

Jihwan Kim, Pyung Kim, Younho Lee, Daeseon Choi

Dept. of Industrial Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

This paper delves into the advantages of authentication algorithms employing self-sovereign identity, highlighting a reduced communication overhead and the elimination of single points of failure. However, it acknowledges the vulnerability of digital wallets to real-world issues like loss or theft. To address these challenges, we propose an efficient key backup and recovery protocol based on the FROST threshold signature algorithm. This protocol involves trusted third parties and backup devices, ensuring secure secret key sharing and rapid key recovery. Performance evaluations, including key recovery time, demonstrate the protocol’s efficiency and reliability, bolstering the overall robustness of self-sovereign identity systems.

Original language	English
Article number	830
Journal	Mathematics
Volume	12
Issue number	6
DOIs	https://doi.org/10.3390/math12060830
State	Published - Mar 2024

Keywords

FROST (flexible round-optimized Schnorr threshold signatures)
interoperability technology of digital identification
key backup
key recovery
multi-party distributed signature
universal digital wallet

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10.3390/math12060830

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title = "Key Backup and Recovery for Resilient DID Environment",

abstract = "This paper delves into the advantages of authentication algorithms employing self-sovereign identity, highlighting a reduced communication overhead and the elimination of single points of failure. However, it acknowledges the vulnerability of digital wallets to real-world issues like loss or theft. To address these challenges, we propose an efficient key backup and recovery protocol based on the FROST threshold signature algorithm. This protocol involves trusted third parties and backup devices, ensuring secure secret key sharing and rapid key recovery. Performance evaluations, including key recovery time, demonstrate the protocol{\textquoteright}s efficiency and reliability, bolstering the overall robustness of self-sovereign identity systems.",

keywords = "FROST (flexible round-optimized Schnorr threshold signatures), interoperability technology of digital identification, key backup, key recovery, multi-party distributed signature, universal digital wallet",

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AU - Lee, Younho

AU - Choi, Daeseon

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AB - This paper delves into the advantages of authentication algorithms employing self-sovereign identity, highlighting a reduced communication overhead and the elimination of single points of failure. However, it acknowledges the vulnerability of digital wallets to real-world issues like loss or theft. To address these challenges, we propose an efficient key backup and recovery protocol based on the FROST threshold signature algorithm. This protocol involves trusted third parties and backup devices, ensuring secure secret key sharing and rapid key recovery. Performance evaluations, including key recovery time, demonstrate the protocol’s efficiency and reliability, bolstering the overall robustness of self-sovereign identity systems.

KW - FROST (flexible round-optimized Schnorr threshold signatures)

KW - interoperability technology of digital identification

KW - key backup

KW - key recovery

KW - multi-party distributed signature

KW - universal digital wallet

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ER -

Key Backup and Recovery for Resilient DID Environment

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Keywords

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