A Novel Approach for ECG-Based Human Identification Using Spectral Correlation and Deep Learning

被引:63
作者
Abdeldayem S.S. [1 ]
Bourlai T. [1 ]
机构
[1] Lane Department of Computer Science and Electrical Engineering, Multi-Spectral Imagery Lab, West Virginia University, Morgantown, 26506, WV
来源
IEEE Transactions on Biometrics, Behavior, and Identity Science | 2020年 / 2卷 / 01期
关键词
Biometrics; convolutional neural networks; deep learning; electrocardiogram (ECG); human identification; spectral correlation;
D O I
10.1109/TBIOM.2019.2947434
中图分类号
学科分类号
摘要
In this paper, we utilize the electrocardiogram (ECG) as a primary biometric modality in human identification. The design steps of the proposed approach are the following. First, we segment the ECG signal and utilize its cyclostationarity and spectral correlation to enrich the signal's original informational content. Then, we generate spectral correlation images. During this process, we disregard the time-consuming algorithmic step, typically used in other similar ECG-based machine learning approaches, namely the fiducial points detection and noise removal steps. Next, our spectral correlation images are fed into two convolutional neural network (CNN) architectures, which we fine-tune, test and evaluate, before we suggest a final architecture that demonstrates improved ECG-based human identification accuracy. To evaluate the efficiency of the proposed approach, we perform cross-validation on nine small and large scale ECG databases that encompass both normal and abnormal ECG signals. Experimental results show that independent of the database used, our approach results in improved system performance (compared to state-of-art approaches), yielding an identification accuracy, false acceptance and false rejection rates of 95.6%, 0.2%, and 0.1% respectively. © 2019 IEEE.
引用
收藏
页码:1 / 14
页数:13
相关论文
共 84 条
[1]  
Bowyer K.W., Hollingsworth K., Flynn P.J., Image understanding for iris biometrics: A survey, Comput. Vis. Image Understanding, 110, 2, pp. 281-307, (2008)
[2]  
Bourlai T., Whitelam C., Kakadiaris I., Pupil detection under lighting and pose variations in the visible and active infrared bands, Proc. IEEE Int. Workshop Inf. Forensics Security (WIFS), pp. 1-6, (2011)
[3]  
Sarkar I., Alisherov F., Kim T.-H., Bhattacharyya D., Palm vein authentication system: A review, Int. J. Control Autom., 3, 1, pp. 27-33, (2010)
[4]  
Krishneswari K., Arumugam S., A review on palm print verification system, Int. J. Comput. Inf. Syst. Ind. Manag. Appl., 2, pp. 113-120, (2010)
[5]  
Abaza A., Bourlai T., On ear-based human identification in the mid-wave infrared spectrum, Image Vis. Comput., 31, 9, pp. 640-648, (2013)
[6]  
Pflug A., Busch C., Ear biometrics: A survey of detection, feature extraction and recognition methods, IET Biometr., 1, 2, pp. 114-129, (2012)
[7]  
Bansal R., Sehgal P., Bedi P., Minutiae extraction from fingerprint images-A review, Int. J. Comput. Sci., 8, (2011)
[8]  
Narang N., Bourlai T., Face recognition in the SWIR band when using single sensor multi-wavelength imaging systems, Image Vis. Comput., 33, pp. 26-43, (2015)
[9]  
Bourlai T., Von Dollen J., Mavridis N., Kolanko C., Evaluating the efficiency of a night-time, middle-range infrared sensor for applications in human detection and recognition, Proc. Infrared Imag. Syst. Design Anal. Model. Testing XXIII, (2012)
[10]  
Bourlai T., Et al., Ascertaining human identity in night environments, Distributed Video Sensor Networks, pp. 451-467, (2011)
123456789