Accuracy Enhancement for Ear Acoustic Authentication Using Between-class Features
share
In existing biometric authentication methods, the user must perform an authentication operation such as placing a finger in a scanner or facing a camera. With ear acoustic authentication, acoustic characteristics of the ear canal are used as biometric information. Therefore, a person wearing earphones does not need to perform any authentication operation. In biometric authentication, it is necessary to minimize the false acceptance rate (FAR) so that no unauthorized user is misidentified as an authorized user. However, if the FAR is set low, it increases the false rejection rate (FRR), the rate at which authorized users are falsely recognized as unauthorized users. It has been reported that when FAR is 0.1 reaches as much as 22 enhances authentication accuracy; it generates new ear canal acoustic characteristics called between-class (BC) features, which combine the ear canal acoustic characteristics of authorized and unauthorized users features. The proposed method uses a support vector machine to learn the BC features as the data of authorized users, then generates a hyperplane in an area close to that data. We hypothesize that this would decrease the possibility of misidentifying an unauthorized user as an authorized user and decrease the FRR when the FAR is 0.1 applied to ear acoustic authentication, and FAR and FRR were calculated. The FRR with FAR = 0.1 equal error rate – the error rate when FAR and FRR are equivalent – decreased by 0.15 acoustic authentication more convenient while maintaining a high level of security.
READ FULL TEXT