Login
Registrati
Reimposta password
Pubblica & Distribuisci
Soluzioni Editoriali
Soluzioni di Distribuzione
Temi
Architettura e design
Arti
Business e Economia
Chimica
Chimica industriale
Farmacia
Filosofia
Fisica
Geoscienze
Ingegneria
Interesse generale
Legge
Letteratura
Linguistica e semiotica
Matematica
Medicina
Musica
Scienze bibliotecarie e dell'informazione, studi library
Scienze dei materiali
Scienze della vita
Scienze informatiche
Scienze sociali
Sport e tempo libero
Storia
Studi classici e del Vicino Oriente antico
Studi culturali
Studi ebraici
Teologia e religione
Pubblicazioni
Riviste
Libri
Atti
Editori
Blog
Contatti
Cerca
EUR
USD
GBP
Italiano
English
Deutsch
Polski
Español
Français
Italiano
Carrello
Home
Riviste
International Journal on Smart Sensing and Intelligent Systems
Volume 16 (2023): Numero 1 (January 2023)
Accesso libero
Biometric authentication sensor with an encryption module for prevention of h/w hacking in digital custody services
Soojun Lee
Soojun Lee
,
Hyeopgoo Yeo
Hyeopgoo Yeo
e
Mingoo Kang
Mingoo Kang
| 06 apr 2023
International Journal on Smart Sensing and Intelligent Systems
Volume 16 (2023): Numero 1 (January 2023)
INFORMAZIONI SU QUESTO ARTICOLO
Articolo precedente
Articolo Successivo
Sommario
Articolo
Immagini e tabelle
Bibliografia
Autori
Articoli in questo Numero
Anteprima
PDF
Cita
CONDIVIDI
Article Category:
Article
Pubblicato online:
06 apr 2023
Pagine:
-
Ricevuto:
01 nov 2022
DOI:
https://doi.org/10.2478/ijssis-2023-0004
Parole chiave
Digital custody model
,
home gateway
,
FIDO
,
DID
,
biometric security
,
embedded encryption LEA
© 2023 Soojun Lee et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Figure 1
Biometric authentication process by FIDO: (A) Fingerprint registration process. (B) Fingerprint login process [4]. FIDO, Fast ID Online.
Figure 2
The conceptual proposed custody model of digital assets using a set-top box (home gateway). FIDO, Fast ID Online; DID, decentralized ID.
Figure 3
Design of digital asset custody service model based on home gateway: (A) simplified diagram and (B) detailed features of set-top box as a home gateway. FIDO, Fast ID Online, DID, decentralized ID.
Figure 4
The DID-based custody model: (A) custody model using home gateway, and (B) the storage of the home gateway by the DID for custody service. DID, decentralized ID.
Figure 5
Authentication process for personal digital asset custody model based on multiple DID. DID, decentralized ID.
Figure 6
Information processing of the proposed custody model configuration. CTAP, client to authenticator protocol; FIDO, Fast ID Online.
Figure 7
An example of hardware hacking prevention of biometric information in the biometric authentication process.
Figure 8
The proposed biometric sensor embedded with an encryption module to prevent hardware hacking and a system schematic to restore it.
Figure 9
LEA round function: (A) for encryption, and (B) for decryption. LEA, lightweight encryption algorithm.
Figure 10
Architecture of the LEA block cipher algorithm for IP design. LEA, lightweight encryption algorithm.
Figure 11
Round-key generation Verilog code for KeySchedule module.
Figure 12
LEA decryption C code for fingerprint image restoration. LEA, lightweight encryption algorithm.
Figure 13
Fingerprint sensor image with embedded LEA module: (A) original fingerprint image, (B) LEA encrypted image, and (C) LEA decrypted image. LEA, lightweight encryption algorithm.
Figure 14
Fingerprint information enrollment process: (A) 16 DB enrollment, (B) DB verify and lock, (C) authentication process, and (D) authentication failure with encrypted fingerprint image.
Figure 15
The proposed digital custody model with a biometric authentication device with an embedded encryption module, (A) using a set-top box as a home gateway and (B) authentication and information transfer processing.
Anteprima