Sensors, Vol. 19, Pages 3709: Multi-Biometric System Based on Cutting-Edge Equipment for Experimental Contactless Verification

Sensors, Vol. 19, Pages 3709: Multi-Biometric System Based on Cutting-Edge Equipment for Experimental Contactless Verification Sensors doi: 10.3390/s19173709 Authors: Lukas Kolda Ondrej Krejcar Ali Selamat Kamil Kuca Oluwaseun Fadeyi Biometric verification methods have gained significant popularity in recent times, which has brought about their extensive usage. In light of theoretical evidence surrounding the development of biometric verification, we proposed an experimental multi-biometric system for laboratory testing. First, the proposed system was designed such that it was able to identify and verify a user through the hand contour, and blood flow (blood stream) at the upper part of the hand. Next, we detailed the hard and software solutions for the system. A total of 40 subjects agreed to be a part of data generation team, which produced 280 hand images. The core of this paper lies in evaluating individual metrics, which are functions of frequency comparison of the double type faults with the EER (Equal Error Rate) values. The lowest value was measured for the case of the modified Hausdorff distance metric - Maximally Helicity Violating (MHV). Furthermore, for the verified biometric characteristics (Hamming distance and MHV), appropriate and suitable metrics have been proposed and experimented to optimize system precision. Thus, the EER value for the designed multi-biometric system in the context of this work was found to be 5%, which proves that metrics ...
Source: Sensors - Category: Biotechnology Authors: Tags: Article Source Type: research