Abstract
Nowadays, Biometric system automatically identifies the unique feature of an individual for better evaluation and verification in recognition systems. Face and iris recognition in biometric identification systems is considered as most accurate procedure with higher recognition rate. CCTV surveillance plays a major role in human recognition and identification with the help of intelligent systems. The biometric system combined with CCTV output analyzes the data with/without human intervention. This paper presents an approach of human identification with recognition using facial and iris biometric from lower resolution images. Also, Lower resolution in image clarity is a major constraint in recognizing the individuals from distance with biometric values. To overcome problem in individual recognizing, the combination of Gabor and Legendre filter is combined. The use of hybrid log-Gabor–Legendre (LGL) filter improves the recognition pattern of face and iris in multi-spectral images. After log Gabor–Legendre filtration, two new techniques such as phase quadrant method for iris and LGBPHS method for face are used to improve recognition pattern. Hence, a framework comprising of feature recognition using LGL filter and similarity comparison using score level fusion is proposed. A series of stages enhances well the recognition performances using the proposed solution. Experiments established the validity against existing linear techniques for facial and iris image recognition pattern from CCTV cameras for automated human identification and verification.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
An Z, Deng W, Hu J, Zhong Y, Zhao Y (2019) APA: adaptive pose alignment for pose-invariant face recognition. Digital Object Identifier. https://doi.org/10.1109/ACCESS.2019.2894162
Arora M, Kumar M, Garg NK (2018) Facial emotion recognition system based on PCA and gradient features. Springer, Berlin
Chabra P, Kumar N, Kumar M (2020) Content-based image retrieval system using ORB and SIFT features. Neural Comput Appl 32(7):2725–2733
Dargan S, Kumar M (2019b) A comprehensive survey on the biometric recognition systems based on physiological and behavioral modalities. Elsevier, Amsterdam
Dargan S, Kumar M, Ayyagari MR, Kumar G (2019) A survey of deep learning and its applications: a new paradigm to machine learning. Arch Comput Methods Eng
Dargan S, Kumar M, Thakur K (2019) Writer identification system for pre-segmented offline handwritten Devanagari characters using k-NN and SVM, Soft Computing, 1–12 Methodologies and applications
Daugman JG (1985) Uncertainty relation for resolution in space, spatial frequency, and orientation optimized by two-dimensional visual cortical filters. J Opt Soc Am A Opt Image Sci 2:1160–1169
Daugman J (2002) Gabor wavelets and statistical pattern recognition. In: The handbook of brain theory and neural networks, pp 457–461. The Mit Press, Cambridge
Daugman J (2004) How iris recognition works. IEEE Trans Circuits Syst Video Technol 14(21–30):3
Daugman J (2007) New methods in iris recognition. IEEE Trans Syst Man Cybern Part B Cybern 37(5):1167–1175
De Marsico M, Nappi M, Riccio D (2010) Face: face analysis for commercial entities. In: 17th IEEE international conference on image processing (ICIP '10), Honk Kong, China, pp 1597–1600
De Marsico M, Nappi M, Riccio D (2010) ISIS: iris segmentation for identification systems. In: 20th international conference on pattern recognition (ICPR '10), Istanbul, pp 2857–2860
DeMarsico M, Nappi M, Riccio D (2012) ES-RU: an entropy based rule to select representative templates in face surveillance. Multimedia tools and applications, special issue on human vision and information theory. Springer Journal, published online November 08, 2012
Field DJ (1987) Relations between the statistics of natural images and the response properties of cortical cells. J Opt Soc Am A 4(12):2379–2394
Gunturk B, Batur A, Altunbasak Y, Hayes M, Mersereau R (2003) Eigenface-domain super-resolution for face recognition. IEEE Trans Image Process 12(5):597–606
Gupta S, Thakur K, Kumar M (2020) 2D-human face recognition using SIFT and SURF descriptors of face’s feature regions. Springer, Berlin
Hong L, Jain AK (1998) Integrating faces and fingerprints for personal identification. IEEE Trans PAMI 20(12):1295–1307
Jain AK, Bolle RM, Pankanti S (1999) Biometrics: personal identification in a networked society. Kluwer, Dordrecht
Jia K, Gong S (2005) Multi-modal tensor face for simultaneous super-resolution and recognition. In: 10th IEEE international conference on computer vision, vol 2, pp 1683–1690
Keys R (1981) Cubic convolution interpolation for digital image processing. IEEE Trans Acoust Speech Signal Process 29(6):1153–1160
Kittler J, Hatef M, Duin RPW, Mates J (1998) On combining classifiers. IEEE Trans PAMI 20(3):226–239
Kumar M, Jindal SR (2018) Fusion of RGB and HSV colour space for foggy image quality enhancement. Springer, Berlin
Kumar VN, Srinivasan B (2013) Performance of personal identification system technique using iris biometrics technology. Int J Image Gr Signal Process 5(5):63
Kumar A, Kaur A, Kumar M (2018) Face detection techniques: a review. Artif Intell Rev 52(2):927–948
Kumar M, Jindal MK, Sharma RK, Jindal SR (2019) Performance evaluation of classifiers for the recognition of offline handwritten Gurmukhi characters and numerals: a study. Springer, Berlin
Lee Y, Micheals RJ, Filliben JJ, Phillips PJ (2013) Vasir: an open-source research platform for advanced iris recognition technologies. J Res Nat Inst Stand Technol 118:218
Lin F, Fookes C, Chandran V, Sridharan S (2007) Superresolved faces for improved face recognition from surveillance video. In: Lecture notes in computer science, vol 4642 LNCS, pp 1–10
Liu C (2004) Gabor-based kernel pca with fractional power polynomial models for face recognition. IEEE Trans Pattern Anal Mach Intell 26:572–581
Liu C, Wechsler H (2002) Gabor feature based classification using the enhanced fisher linear discriminant model for face recognition. IEEE Trans Image Process 11:467–476
Mansfield T, Kelly G, Chandler D, Kan J (2001) Biometric product testing final report. Technical report, National Physical Laboratory of UK
Massot C, Hérault J (2008) Model of frequency analysis in the visual cortex and the shape from texture problem. Int J Comput Vis. 76(2):165–182
Nguyen K, Fookes C, Sridharan S, Denman S (2011a) Feature-domain super-resolution for iris recognition. In: 18th IEEE international conference on image processing, pp 3258–3261
Nguyen K, Fookes C, Sridharan S, Denman S (2011b) Quality-driven super-resolution for less constrained iris recognition at a distance and on the move. IEEE Trans Inf Forensics Secur 99:1
Pravinthraja S, Umamaheswari K (2011) Multimodal biometrics for improving automatic teller machine security. Bonfring Int J Adv Image Process 1:19
Serrano A, de Diego I, Conde C, Cabello E (2010) Recent advances in face biometrics with gabor wavelets: a review. Pattern Recognit Lett 31(5):372–381
Skurichina M, Duin RPW (2002) Bagging, boosting and the random subspace method for linear classifiers. Pattern Anal Appl 5(1):121–135
Tadic V, Odry A, Toth A, Vizvari Z, Odry P (2020) Fuzzified “circular gabor filter for circular and near-circular object detection”. https://doi.org/10.1109/ACCESS.2020.2995553.
Zhang Y, Wang Q, Xiao L, Cui Z (2019) An improved two-step face recognition algorithm based on sparse representation. September 2019. https://doi.org/10.1109/ACCESS.2019.2940876
Zhao W, Chellappa R, Rosefeld A, Phillips PJ (2000) Face recognition: a literature survey. Technical report, Computer Vision Lab, University of Maryland
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Jayavadivel, R., Prabaharan, P. Investigation on automated surveillance monitoring for human identification and recognition using face and iris biometric. J Ambient Intell Human Comput 12, 10197–10208 (2021). https://doi.org/10.1007/s12652-020-02787-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12652-020-02787-1