Abstract
Recently, iris identification technology have attracted much interests in the field of automatic biometric identification, taking uniqueness, stability and anti-counterfeiting of iris texture information and non-contact of iris recognition into consideration. However, the self-safety problem of iris recognition is caused by the safety of the iris itself. In order to enhance the security of iris feature data, an information hiding method based on adaptive multi-planet is proposed in this paper, in which, The iris feature is used as the secret information, the face image is the host information, and the data hiding algorithm of the iris feature template data is embedded into the face image according to the characteristics of the secret information and the host information. The algorithm has low computational complexity and large amount of information hiding, which realizes the hiding of biometrics to biometrics and enhances the security of biometric data. The simulation results show that The algorithm has strong concealment. The hidden algorithm has zero error rate and high computational efficiency. It does not affect the performance of the iris recognition technology itself. It can effectively protect the feature template data and enhance the security of the iris recognition system itself.
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张宁, 臧亚丽, 田捷 (2015) 生物特征与密码技术的融合. 密码学报 2(2):159–176
游林 (2015) 生物特征密码技术综述. 杭州电子科技大学学报 35(3):1–17
林文峰, 杨帆, 陈国民 (2010) 基于指纹的数字信息加密算法. 计算机工程 36(8):132–134
Schneier B (1999) The uses and abuses of biometrics. Commun ACM 42(8):136
Jain A K, Uludag U (2003) Hiding biometric data. IEEE Trans Pattern Anal Mach Intell 25(11)
Huartung F, Kutter M (1999) Multimedia watermarking techniques. Proc IEEE 87(7):1079–1107
Jain S (2000) Digital watermarking techniques: a case study in fingerprints & faces. In: Proceedings of computer vision, graphics and image processing conference, Bangalore, India (s. n.), pp 139–144
Ratha NK, Connell JH, Bolle RM (2000) Secure data hiding in wavelet compressed fingerprint Bangalore, India. In: Proceedings of ACM multimedia. New York, USA (s. n.) pp 127–130
Pankati S, Yeung MM (1999) Verification watermarks on fingerprint recognition and retrieval. In: Proceedings of SPIE, vol 3657. San Jose, USA (s. n.), pp 66–78
Gunsel B, Uludag U, Teklap AM (2002) Robust watermarking of fingerprint images. Pattern Recogn 35(12):2739–2747
Bender W, Gruhl D, Morimoto N et al (1996) Techniques for data hiding. IBM Syst J 35(3/4):313–336
Kutter M, Jordan F, Bossen F (1997) Digital signature of color images using amplitude modulation. In: Proceedings of SPIE, vol 3022. San Jose, USA (s. n.), pp 518–526
Jayant N, Johnston J, Safranek R (1993) Signal compression based on models of human perception. Proc IEEE 81(10):385–1422
中国科学技术大学智能信息处理实验室虹膜数据库 (2006-08-10). ftp://202.38.78.224/Sample/
Xueye Ye (2006) Iris and face based multi-biometrics identification and fusion algorithm. University of Science and Technology of China, Hefei, China
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This work is supported by Heilongjiang Provincial Education Department Project (SJGY20180390).
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Feng, J., Ma, H., Ma, Q., Wang, Y., Liu, H., Chen, H. (2020). An Information Hiding Algorithm for Iris Features. In: Liang, Q., Wang, W., Liu, X., Na, Z., Jia, M., Zhang, B. (eds) Communications, Signal Processing, and Systems. CSPS 2019. Lecture Notes in Electrical Engineering, vol 571. Springer, Singapore. https://doi.org/10.1007/978-981-13-9409-6_176
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DOI: https://doi.org/10.1007/978-981-13-9409-6_176
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