An efficient multi-factor authenticated key exchange with physically unclonable function
| Title | An efficient multi-factor authenticated key exchange with physically unclonable function |
| Publication Type | Conference Paper |
| Year of Publication | 2019 |
| Authors | Byun, Jin Wook |
| Conference Name | 2019 International Conference on Electronics, Information, and Communication (ICEIC) |
| Keywords | authentication, cryptographic protocols, Encryption, human factors, Key exchange, message authentication, Metrics, Multi-factor authenticators, multifactor authenticated key exchange, multifactor authentication, multifactor authenticators, password, Protocols, pubcrawl, PUF, PUF-embedded device, PUF-MAKE setting, Resiliency, secure physically unclonable function, secure PUF-MAKE protocol, Servers, Two factor Authentication |
| Abstract | In this paper, we propose an efficient and secure physically unclonable function based multi-factor authenticated key exchange (PUF-MAKE). In a PUF-MAKE setting, we suppose two participants; a user and a server. The user keeps multi-factor authenticators and securely holds a PUF-embedded device while the server maintains PUF outputs for authentication. We first study on how to efficiently construct a PUF-MAKE protocol. The main difficulty comes from that it should establish a common key from both multi-factor authenticators and a PUF-embedded device. Our construction is the first secure PUF-MAKE protocol that just needs three communication flows. |
| DOI | 10.23919/ELINFOCOM.2019.8706400 |
| Citation Key | byun_efficient_2019 |
- password
- two factor authentication
- Servers
- secure PUF-MAKE protocol
- secure physically unclonable function
- Resiliency
- PUF-MAKE setting
- PUF-embedded device
- PUF
- pubcrawl
- Protocols
- authentication
- multifactor authenticators
- multifactor authentication
- multifactor authenticated key exchange
- Multi-factor authenticators
- Metrics
- message authentication
- Key exchange
- Human Factors
- encryption
- Cryptographic Protocols