Top

Neural Computing and Applications

Published in:

07-03-2018 | Original Article

Age and gender classification using brain–computer interface

Authors: Barjinder Kaur, Dinesh Singh, Partha Pratim Roy

Published in: Neural Computing and Applications | Issue 10/2019

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

With the development of Internet of things (IOT), it is now possible to connect various heterogeneous devices together using Internet. The devices are able to share their information for various applications including health care, security and monitoring. IOT facilitates patients to self-monitor their physiological states invariably and doctors to monitor their patients remotely. Electroencephalography (EEG) provides a monitoring method to record such electrical activities of the brain using sensors. In this paper, we present an automatic age and gender prediction framework of users based on their neurosignals captured during eyes closed resting state using EEG sensor. Using EEG sensor, brain activities of 60 individuals with different age groups varying between 6 and 55 years and gender (i.e., male and female) have been recorded using a wireless EEG sensor. Discrete wavelet transform frequency decomposition has been performed for feature extraction. Next, random forest classifier has been applied for modeling the brain signals. Lastly, the accuracies have been compared with support vector machine and artificial neural network classifiers. The performance of the system has been tested using user-independent approach with an accuracy of 88.33 and 96.66% in age and gender prediction, respectively. It has been analyzed that oscillations in beta and theta band waves show maximum age prediction, whereas delta rhythm leads to highest gender classification rates. The proposed method can be extended to different IOT applications in healthcare sector where age and gender information can be automatically transmitted to hospitals and clinics through Internet.

previous article Selecting the optimal mining method with extended multi-objective optimization by ratio analysis plus the full multiplicative form (MULTIMOORA) approach

next article A modified TOPSIS method based on vague parameterized vague soft sets and its application to supplier selection problems

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft"

Online-Abonnement

Mit Springer Professional "Wirtschaft" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 340 Zeitschriften

aus folgenden Fachgebieten:

Bauwesen + Immobilien
Business IT + Informatik
Finance + Banking
Management + Führung
Marketing + Vertrieb
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

https://sites.google.com/site/kaurbarjinder/.

Atzori L, Iera A, Morabito G (2010) The internet of things: a survey. Comput Netw 54(15):2787–2805CrossRef

Gubbi J, Buyya R, Marusic S, Palaniswami M (2013) Internet of things (IoT): a vision, architectural elements, and future directions. Future Gen Comput Syst 29(7):1645–1660CrossRef

Chen S-L, Lee H-Y, Chen C-A, Huang H-Y, Luo C-H (2009) Wireless body sensor network with adaptive low-power design for biometrics and healthcare applications. IEEE Syst J 3(4):398–409CrossRef

Gauba H, Kumar P, Roy PP, Singh P, Dogra DP, Raman B (2017) Prediction of advertisement preference by fusing EEG response and sentiment analysis. Neural Netw 92:77–88CrossRef

Ramirez R, Vamvakousis Z (2012) Detecting emotion from EEG signals using the emotive EPOC device. In: International conference on brain informatics. Springer, pp 175–184

Kumar P, Saini R, Roy PP, Dogra DP (2017) A bio-signal based framework to secure mobile devices. J Netw Comput Appl 89:62–71CrossRef

Marcel S, Millán JR (2007) Person authentication using brainwaves (EEG) and maximum a posteriori model adaptation. IEEE Trans Pattern Anal Mach Intell 29(4):743–752CrossRef

Wang L, Zhang X, Zhong X, Zhang Y (2013) Analysis and classification of speech imagery EEG for BCI. Biomed Signal Process Control 8(6):901–908CrossRef

Liao L-D, Chen C-Y, Wang I-J, Chen S-F, Li S-Y, Chen B-W, Chang J-Y, Lin C-T (2012) Gaming control using a wearable and wireless EEG-based brain–computer interface device with novel dry foam-based sensors. J Neuroeng Rehabil 9(1):1CrossRef

10.

Dawson D, Searle AK, Paterson JL (2014) Look before you (s) leep: evaluating the use of fatigue detection technologies within a fatigue risk management system for the road transport industry. Sleep Med Rev 18(2):141–52CrossRef

11.

Nguyen P, Tran D, Huang X, Ma W (2013) Age and gender classification using EEG paralinguistic features. In: 6th International conference on neural engineering, pp 1295–1298

12.

Clarke AR, Barry RJ, McCarthy R, Selikowitz M (2001) Age and sex effects in the EEG: development of the normal child. Clin Neurophysiol 112(5):806–814CrossRef

13.

Barry RJ, Clarke AR, McCarthy R, Selikowitz M, Johnstone SJ, Rushby JA (2004) Age and gender effects in EEG coherence: I. Developmental trends in normal children. Clin Neurophysiol 115(10):2252–2258CrossRef

14.

Jaušovec N, Jaušovec K (2005) Sex differences in brain activity related to general and emotional intelligence. Brain Cogn 59(3):277–286CrossRef

15.

Langrova J, Kremlacek J, Kuba M, Kubova Z, Szanyi J (2012) Gender impact on electrophysiological activity of the brain. Physiol Res 61:S119

16.

Paiva LRM, Pereira AA, Almeida MFS, Cavalheiro GL, Milagre ST, Andrade AO (2012) Analysis of the relationship between EEG signal and aging through linear discriminant analysis. Revista Brasileira de Engenharia Biomédica 28(2):155–168

17.

Nguyen P, Tran D, Vo T, Huang X, Ma W, Phung D (2013) EEG-based age and gender recognition using tensor decomposition and speech features. In: International conference on neural information processing, pp 632–639

18.

Franke K, Ziegler G, Klöppel S, Gaser C, Initiative ADN et al (2010) Estimating the age of healthy subjects from t 1-weighted MRI scans using kernel methods: Exploring the influence of various parameters. Neuroimage 50(3):883–892CrossRef

19.

Levi G, Hassner T (2015) Age and gender classification using convolutional neural networks. In: Conference on computer vision and pattern recognition workshops, pp 34–42

20.

Acharya UR, Fujita H, Sudarshan VK, Bhat S, Koh JE (2015) Application of entropies for automated diagnosis of epilepsy using EEG signals: a review. Knowl Based Syst 88:85–96CrossRef

21.

Sharma R, Pachori RB, Acharya UR (2015) Application of entropy measures on intrinsic mode functions for the automated identification of focal electroencephalogram signals. Entropy 17(2):669–691CrossRef

22.

Faust O, Acharya UR, Adeli H, Adeli A (2015) Wavelet-based EEG processing for computer-aided seizure detection and epilepsy diagnosis. Seizure Eur J Epilepsy 26:56–64CrossRef

23.

Acharya UR, Molinari F, Sree SV, Chattopadhyay S, Ng K-H, Suri JS (2012) Automated diagnosis of epileptic EEG using entropies. Biomed Signal Process Control 7(4):401–408CrossRef

24.

Breiman L (2001) Random forests. Mach Learn 45(1):5–32CrossRef

25.

Fraiwan L, Lweesy K, Khasawneh N, Wenz H, Dickhaus H (2012) Automated sleep stage identification system based on time-frequency analysis of a single EEG channel and random forest classifier. Comput Methods Programs Biomed 108(1):10–19CrossRef

26.

Donos C, Dümpelmann M, Schulze-Bonhage A (2015) Early seizure detection algorithm based on intracranial EEG and random forest classification. Int J Neural Syst 25(05):1550023CrossRef

27.

Badcock NA, Mousikou P, Mahajan Y, de Lissa P, Thie J, McArthur G (2013) Validation of the Emotiv EPOC® EEG gaming system for measuring research quality auditory ERPs. PeerJ 1:e38CrossRef

28.

Hargittai S (2005) Savitzky-Golay least-squares polynomial filters in ECG signal processing. In: Computers in cardiology, pp 763–766

29.

Rahman FA, Othman M (2015) Real time eye blink artifacts removal in electroencephalogram using Savitzky-Golay referenced adaptive filtering. In: International conference for innovation in biomedical engineering and life sciences, pp 68–71

30.

Wali MK, Murugappan M, Ahmmad RB (2012) Mathematical implementation of hybrid fast Fourier transform and discrete wavelet transform for developing graphical user interface using visual basic for signal processing applications. J Mech Med Biol 12(05):1240031CrossRef

31.

Tatum WO IV (2014) Handbook of EEG interpretation. Demos Medical Publishing, New YorkCrossRef

32.

Soleymani M, Asghari-Esfeden S, Fu Y, Pantic M (2016) Analysis of EEG signals and facial expressions for continuous emotion detection. IEEE Trans Affect Comput 7(1):17–28CrossRef

33.

Kaur B, Singh D, Roy PP (2017) A novel framework of EEG-based user identification by analyzing music-listening behavior. Multimed Tools Appl 76(24):25581–25602CrossRef

34.

Vapnik V (2013) The nature of statistical learning theory. Springer, New YorkMATH

35.

Khan J, Wei JS, Ringner M, Saal LH, Ladanyi M, Westermann F, Berthold F, Schwab M, Antonescu CR, Peterson C et al (2001) Classification and diagnostic prediction of cancers using gene expression profiling and artificial neural networks. Nat Med 7(6):673–679CrossRef

36.

Amato F, López A, Peña-Méndez EM, Vaňhara P, Hampl A, Havel J (2013) Artificial neural networks in medical diagnosis. J Appl Biomed 11(2):47–58CrossRef

37.

Bajaj V, Pachori RB (2012) Classification of seizure and nonseizure EEG signals using empirical mode decomposition. IEEE Trans Inf Technol Biomed 16(6):1135–1142CrossRef

38.

Übeyli ED (2009) Combined neural network model employing wavelet coefficients for EEG signals classification. Digit Signal Proc 19(2):297–308CrossRef

Title: Age and gender classification using brain–computer interface
Authors: Barjinder Kaur
Dinesh Singh
Partha Pratim Roy
Publication date: 07-03-2018
Publisher: Springer London
Published in: Neural Computing and Applications / Issue 10/2019
Print ISSN: 0941-0643
Electronic ISSN: 1433-3058
DOI: https://doi.org/10.1007/s00521-018-3397-1

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft"

Springer Professional "Technik"

Springer Professional "Wirtschaft+Technik"

Other articles of this Issue 10/2019

A spike train distance-based method to evaluate the response of mechanoreceptive afferents

Rotation-invariant features based on directional coding for texture classification

Application of radial basis functions in solving fuzzy integral equations

Flower pollination–feedforward neural network for load flow forecasting in smart distribution grid

Deriving the priority weights from multiplicative consistent single-valued neutrosophic preference relations

Multiple-relations-constrained image classification with limited training samples via Pareto optimization

Premium Partner