Title :
Secure cancelable fingerprint key generation
Author :
Bhatega, Aditi ; Sharma, Kapil
Author_Institution :
Delhi Technol. Univ., Delhi, India
Abstract :
The strength of present day cryptosystem lies mainly in the key used for encryption. The problem to remember, protect and manage private key is a major issue in case of asymmetric ciphers. By using proven one way mathematical functions, multiplication of two large primes and secure hash function, we propose a robust and stable fingerprint key generation scheme. This scheme enables the generation of secure and cancelable cryptographic key with a very small FAR. The key can be used as private key for elliptic curve or NTRU based cryptosystems.
Keywords :
cryptography; asymmetric cipher; cryptosystem; large prime multiplication; mathematical functions; private key management; private key protection; secure cancelable fingerprint key generation; secure hash function; Elliptic curve cryptography; Fingerprint recognition; Gabor filters; Iris recognition; Cancelable Biometrics; Core Point; Fingerprint; Minutiae; Secure Hash Algorithm;
Conference_Titel :
Power India International Conference (PIICON), 2014 6th IEEE
Print_ISBN :
978-1-4799-6041-5
DOI :
10.1109/34084POWERI.2014.7117755
