Intoxicated person identification using Markov chains and neural networks
Pages 3459 - 3467
Abstract
In this work, Markov chains are used to model the statistical behavior of the pixels on the image of the forehead of a person in order to detect intoxication. It is the first time that second-order statistics are used for this purpose. The images were obtained in the thermal infrared region. Intoxication affects blood vessels activity and thus the temperature distribution on the face having a significant effect on the corresponding pixels statistics. The pixels of the forehead images are quantized to 32 Gy levels so that Markov chain models are structured using 32 states. The feature vectors used are the eigenvalues obtained from the first-order transition matrices of the Markov chain models. Since for each person a frame sequence of 50 views is acquired, a cluster of 50 vectors is formed in the 32-dimensional feature space. The feature space is firstly analyzed using projections of the clusters in 3D subspaces of the original 32D feature space. After that, the capability of a simple feed forward neural network to separate the clusters belonging to sober persons from those corresponding to intoxicated persons is investigated. A simple three-layer neural structure has a 98% vector separability success and a 100% cluster separability if the majority voting is considered. Furthermore, the classification problem is faced by excluding from the training procedure either one or five persons and using them in the testing phase. Accordingly, a neural network is trained using all except the excluded data. The obtained neural structure tested with the features of the persons in which it was not trained presents high drunk identification success if the majority voting is considered.
References
[1]
De Marsico M, Nappi M, Riccio D, and Tortora G NABS: novel approaches for biometric systems IEEE Trans Syst Man Cybern-Part C Appl Rev 2011 41 481-493
[2]
Choi JY, De Neve W, Ro YM, and Plataniotis KN Automatic face annotation in personal photo collections using context-based unsupervised clustering and face information fusion IEEE Trans Circuits Syst Video Techn 2010 20 1292-1309
[3]
Benedikt L, Cosker D, Rosin PL, and Marshall D Assessing the uniqueness and permanence of facial actions for use in biometric applications IEEE Trans Syst Man Cybern-part A Syst Humans 2010 40 449-460
[4]
Tolba AS, El-Baz AH, and El-Harby AA Face recognition: a literature review Int J Sig Proc 2006 2 88-103
[5]
Patel R, Rathod N, and Shah A Comparative analysis of face recognition approaches: a survey Int J Comp Appl 2012 57 50-61
[6]
Buddharaju P, Pavlidis JT, Tsiamyrtzis P, and Bazakos M Physiology-based face recognition in the thermal infrared spectrum IEEE Trans on PAMI 2007 29 613-626
[7]
Zhao S, Grigat RR (2005) An automatic face recognition system in the near infrared spectrum. In: Proc. 4th Int Conf Mach Learning Data Mining Pat Rec, Leipzig, Germany 3587:437-444.
[8]
Khan MM, Ingleby M, and Ward RD Automated facial expression classification and affect interpretation using infrared measurement of facial skin temperature variations ACM Trans on Auton Adapt Syst 2006 1 91-113
[9]
Koukiou G and Anastassopoulos V Drunk person identification using thermal infrared Images Int J Elect Sec Dig Forens 2012 4 229-243
[10]
Koukiou G and Anastassopoulos V Drunk person screening using eye thermal signatures JForens Sci 2016 61 259-264
[11]
Koukiou G and Anastassopoulos V Neural Networks for identifying intoxicated persons Forens Sci Int 2015 252 69-76
[12]
Koukiou G and Anastassopoulos V Infrared signature of facial blood vessels for intoxicated person discrimination Aust J Forens Sci 2016 48 326-338
[13]
Koukiou G and Anastassopoulos V Local difference patterns for drunk person identification Multimed Tools Appl 2017 12 1-13
[14]
Bhuyan M K, Dhawle S, Sasmal P, Κoukiou G (2018) Intoxicated person identification using thermal infrared images and Gait, IEEE International Conference on Wireless Communications Signal Processing and Networking (WiSPNET 2018), 22–24 March 2018, Chennai, India.
[15]
Kubicek J et al. Prediction model of alcohol intoxication from facial temperature dynamics based on K-means clustering driven by evolutionary computing Symmetry 2019 11 995
[16]
International Center of Alcohol Policies ICAP blue book: practical guides for alcohol policy and prevention approaches 2014 Washington Module 16: blood Alcohol Concentration Limits
[17]
Therrien CW Discrete random signals and statistical signal processing 1992 New Jersey, USA Orentice Hall Inc
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© Springer-Verlag London Ltd., part of Springer Nature 2020.
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Springer-Verlag
Berlin, Heidelberg
Publication History
Published: 01 April 2021
Accepted: 17 July 2020
Received: 21 August 2019
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