Visible to the public Securing Biometric Data with Optimized Share Creation and Visual Cryptography Technique

TitleSecuring Biometric Data with Optimized Share Creation and Visual Cryptography Technique
Publication TypeConference Paper
Year of Publication2022
AuthorsL, Shammi, Milind, Emilin Shyni, C., Ul Nisa, Khair, Bora, Ravi Kumar, Saravanan, S.
Conference Name2022 6th International Conference on Electronics, Communication and Aerospace Technology
KeywordsAerospace electronics, Biological system modeling, biometric encryption, biometrics, biometrics (access control), Encryption, homomorphic encryption, Metrics, Optimal key generation, pubcrawl, resilience, Resiliency, security, Share creation, visual databases, visualization
Abstract

Biometric security is the fastest growing area that receives considerable attention over the past few years. Digital hiding and encryption technologies provide an effective solution to secure biometric information from intentional or accidental attacks. Visual cryptography is the approach utilized for encrypting the information which is in the form of visual information for example images. Meanwhile, the biometric template stored in the databases are generally in the form of images, the visual cryptography could be employed effectively for encrypting the template from the attack. This study develops a share creation with improved encryption process for secure biometric verification (SCIEP-SBV) technique. The presented SCIEP-SBV technique majorly aims to attain security via encryption and share creation (SC) procedure. Firstly, the biometric images undergo SC process to produce several shares. For encryption process, homomorphic encryption (HE) technique is utilized in this work. To further improve the secrecy, an improved bald eagle search (IBES) approach was exploited in this work. The simulation values of the SCIEP-SBV system are tested on biometric images. The extensive comparison study demonstrated the improved outcomes of the SCIEP-SBV technique over compared methods.

DOI10.1109/ICECA55336.2022.10009546
Citation Keyl_securing_2022