Abstract
Accurate segmentation of the iris area in input images has a significant effect on the accuracy of iris recognition and is a very important preprocessing step in the overall iris recognition process. In previous studies on iris recognition, however, the accuracy of iris segmentation was reduced when the images of captured irises were of low quality due to problems such as optical and motion blurring, thick eyelashes, and light reflected from eyeglasses. Deep learning-based iris segmentation has been proposed to improve accuracy, but its disadvantage is that it requires a long processing time. To resolve this problem, this study proposes a new method that quickly finds a rough iris box area without accurately segmenting the iris region in the input images and performs ocular recognition based on this. To address this problem of reduced accuracy, the recognition is performed using the ocular area, which is a little larger than the iris area, and a deep residual network (ResNet) is used to resolve the problem of reduced recognition rates due to misalignment between the enrolled and recognition iris images. Experiments were performed using three databases: Institute of Automation Chinese Academy of Sciences (CASIA)-Iris-Distance, CASIA-Iris-Lamp, and CASIA-Iris-Thousand. They confirmed that the method proposed in this study had a higher recognition accuracy than existing methods.
Highlights
Due to recent developments in technology, iris recognition is being used for personal authentication in smartphones [1]
To evaluate the performance of the ocular recognition method proposed in this study, three types of open databases captured in an NIR camera environment were used to perform tests: CASIA-Iris-Distance, CASIA-Iris-Lamp, and CASIA-Iris-Thousand databases [49]
The CASIA-Iris-Distance database’s 282 classes, which include both eyes of the 141 people, were divided into sub-database 1 (DB1) and sub-database 2 (DB2) with 71 (142 classes) and 70 people (140 classes), respectively
Summary
Due to recent developments in technology, iris recognition is being used for personal authentication in smartphones [1]. Iris recognition performance is influenced by the environment in which the image is captured (e.g., a noisy environment, low resolution, optical or motion blurring, specular reflection and in-plane rotation, off-angle, off-axis). Sensors 2019, 19, 842 resulting in a reduced recognition performance Problems such as optical or motion blur, specular reflection, and in-plane rotation can occur when iris images are captured with both NIR and visible light cameras. If this occurs, it becomes difficult to accurately segment the iris area, which could have a significant effect on the accuracy of iris recognition.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
