Title :
A Real Helper Data Scheme
Author :
Xiaoying Shao ; Veldhuis, Raymond N. J.
Author_Institution :
EEMCS Fac., Univ. of Twente, Enschede, Netherlands
Abstract :
The helper data scheme utilizes a secret key to protect biometric templates. The current helper data scheme requires binary feature representations that introduce quantization error and thus reduce the capacity of biometric channels. For spectral-minutiae based fingerprint recognition systems, Shannon theory proves that the current helper data scheme cannot have more than 6 bits. A 6-bit secret key is too short to secure the storage of biometric templates. Therefore, we propose a new helper data scheme without quantization. A basic realization is to convert the real-valued feature vector into a phase vector. By applying the spectral minutiae method in the FVC2000-DB2 fingerprint database, our new helper data scheme together with repetition codes and BCH codes allows at least 76 secret bits.
Keywords :
BCH codes; channel capacity; data protection; feature extraction; fingerprint identification; public key cryptography; quantisation (signal); spectral analysis; BCH codes; FVC2000-DB2 fingerprint database; Shannon theory; binary feature representation; biometric channel capacity; biometric template protection; feature vector; phase vector; quantization error; real helper data scheme; repetition codes; secret key; spectral minutiae based fingerprint recognition system; Binary phase shift keying; Bit error rate; Databases; Feature extraction; Quantization (signal); Vectors; biometric template protection; helper data scheme; secret key;
Conference_Titel :
Pattern Recognition (ACPR), 2013 2nd IAPR Asian Conference on
Conference_Location :
Naha
DOI :
10.1109/ACPR.2013.29
