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Erschienen in:
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2017 | OriginalPaper | Buchkapitel

Common Spatial Pattern with Feature Scaling (FSc-CSP) for Motor Imagery Classification

verfasst von : Yohanes de Britto Hertyasta Prathama, Mohd Ibrahim Shapiai, Siti Armiza Mohd Aris, Zuwairie Ibrahim, Jafreezal Jaafar, Hilman Fauzi

Erschienen in: Modeling, Design and Simulation of Systems

Verlag: Springer Singapore

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Abstract

Brain-Computer Interface (BCI) is a way to translate human thoughts into computer commands. One of the most popular BCI type is Electroencephalography (EEG)-based BCI, where motor imagery is considered one of the most effective ways. Previously, to extract useful information, various filters are introduced, such as spatial, temporal, and spectral filtering. A spatial filtering algorithm called Common Spatial Pattern (CSP) was developed and known to have excellent performance, especially in motor imagery for BCI application. In general, there are several approaches in improving CSP such as regularization approach, analytic approach, and frequency band selection. In general, the existing techniques for band selection is either to select or reject the band by ignoring the importance of the band. For example, Binary Particle Search Optimization Common Spatial Pattern (BPSO-CSP) was proposed to choose multiple possible best bands to be used in processing the data. In this paper, we propose an algorithm called Feature Scaling Common Spatial Pattern (FSc-CSP) to overcome the problem of feature selection. Instead of selecting features, the proposed algorithm employs a feature scaling system to scale the importance of each band by using Genetic Algorithm (GA) altogether with Extreme Learning Machine (ELM) as classifier, with 1 signifying the most important bands, declining until 0 for the unused bands, as opposed to the 1 and 0 selection system used in BPSO-CSP. Conducted experiments show that by employing feature scaling, better results can be achieved especially compared to vanilla CSP and feature selection with 100 hidden nodes in three from five BCI Competition III datasets IVa, namely aa, aw and ay, with around 5–8% better results compared to vanilla CSP and feature selection.

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Literatur
1.
Falzon, O., Camilleri, K.P., Muscat, J.: The analytic common spatial patterns method for EEG-based BCI data. J. Neural Eng. 9, 45009 (2012)CrossRef
2.
Szafir, D.J.: Non-invasive BCI through EEG (2009)
3.
Ludwig, K.A., Miriani, R.M., Langhals, N.B., Joseph, M.D., Anderson, D.J., Kipke, D.R.: Using a common average reference to improve cortical neuron recordings from microelectrode arrays. J. Neurophysiol. 101, 1679–1689 (2009)CrossRef
4.
Adam, A., Ibrahim, Z., Mokhtar, N., Shapiai, M.I., Mubin, M.: Evaluation of different peak models of eye blink EEG for signal peak detection using artificial neural network. Neural Netw. World. 26, 67–89 (2016)CrossRef
5.
Adam, A., Shapiai, M.I., Mohd Tumari, M.Z., Mohamad, M.S., Mubin, M.: Feature selection and classifier parameters estimation for EEG signals peak detection using particle swarm optimization. Sci. World J. 2014, 1–13 (2014)CrossRef
6.
Ramoser, H., Müller-Gerking, J., Pfurtscheller, G.: Optimal spatial filtering of single trial EEG during imagined hand movement. IEEE Trans. Rehabil. Eng. 8, 441–446 (2000)CrossRef
7.
Lemm, S., Blankertz, B., Curio, G., Müller, K.R.: Spatio-spectral filters for improving the classification of single trial EEG. IEEE Trans. Biomed. Eng. 52, 1541–1548 (2005)CrossRef
8.
Asyraf, H., Shapiai, M.I., Setiawan, N.A., Wan Musa, W.S.N.S.: Masking covariance for common spatial pattern as feature extraction. J. Telecommun. Electron. Comput. Eng. 8, 81–85 (2016)
9.
Lu, H., Plataniotis, K.N., Venetsanopoulos, A.N.: Regularized common spatial patterns with generic learning for EEG signal classification. In: Proceedings of 31st Annual International Conference of the IEEE Engineering in Medicine and Biology Society: Engineering the Future of Biomedicine, EMBC 2009, pp. 6599–6602 (2009)
10.
Thang, L.Q., Temiyasathit, C.: Regularizing multi-bands common spatial patterns (RMCSP): a data processing method for brain-computer interface. In: International Symposium on Medical Information and Communication Technology (ISMICT), May 2015, pp. 180–184 (2015)
11.
Kang, H., Choi, S.: Bayesian multi-task learning for common spatial patterns. In: 2011 International Pattern Recognition in NeuroImaging, vol. 1, pp. 61–64 (2011)
12.
Devlaminck, D., Wyns, B., Grosse-Wentrup, M., Otte, G., Santens, P.: Multisubject learning for common spatial patterns in motor-imagery BCI. Comput. Intell. Neurosci. 2011, 8 (2011)CrossRef
13.
Samek, W., Binder, A., Muller, K.R.: Multiple kernel learning for brain-computer interfacing. In: 2013 Proceedings of Annual International Conference on IEEE Engineering in Medicine and Biology Society, pp. 7048–7051 (2013)
14.
Albalawi, H., Song, X.: A study of kernel CSP-based motor imagery brain computer interface classification. In: 2012 IEEE Signal Processing in Medicine and Biology Symposium, SPMB 2012 (2012)
15.
Novi, Q., Guan, C., Dat, T.H., Xue, P.: Sub-band common spatial pattern (SBCSP) for brain-computer interface. In: Proceedings of 3rd International IEEE EMBS Conference on Neural Engineering, pp. 204–207 (2007)
16.
Wei, Q., Wei, Z.: Binary particle swarm optimization for frequency band selection in motor imagery based brain-computer interfaces. Biomed. Mater. Eng. 26, S1523–S1532 (2015)
17.
Zhang, H., Chin, Z.Y., Ang, K.K., Guan, C., Wang, C.: Optimum spatio-spectral filtering network for brain-computer interface. IEEE Trans. Neural Netw. 22, 52–63 (2011)CrossRef
18.
Lu, H., Eng, H.L., Guan, C., Plataniotis, K.N., Venetsanopoulos, A.N.: Regularized common spatial pattern with aggregation for EEG classification in small-sample setting. IEEE Trans. Biomed. Eng. 57, 2936–2946 (2010)CrossRef
19.
Benoît, F., van Heeswijk, M., Miche, Y., Verleysen, M., Lendasse, A.: Feature selection for nonlinear models with extreme learning machines. Neurocomputing 102, 111–124 (2013)CrossRef
20.
Grosse-Wentrup, M., Buss, M.: Multiclass common spatial patterns and information theoretic feature extraction. IEEE Trans. Biomed. Eng. 55, 1991–2000 (2008)CrossRef
21.
Gouy-Pailler, C., Congedo, M., Brunner, C., Jutten, C., Pfurtscheller, G.: Multi-class independent common spatial patterns: exploiting energy variations of brain sources. In: 2008 Proceedings of 4th International Brain-Computer Interface Workshop and Training Course, pp. 20–25 (2008)
22.
Yuan, X., Nie, H., Su, A., Wang, L., Yuan, Y.: An improved binary particle swarm optimization for unit commitment problem. Expert Syst. Appl. 36, 8049–8055 (2009)CrossRef
23.
Metadaten
Titel
Common Spatial Pattern with Feature Scaling (FSc-CSP) for Motor Imagery Classification
verfasst von
Yohanes de Britto Hertyasta Prathama
Mohd Ibrahim Shapiai
Siti Armiza Mohd Aris
Zuwairie Ibrahim
Jafreezal Jaafar
Hilman Fauzi
Copyright-Jahr
2017
Verlag
Springer Singapore
Buch
Modeling, Design and Simulation of Systems

Print ISBN: 978-981-10-6462-3

Electronic ISBN: 978-981-10-6463-0

Copyright-Jahr: 2017

DOI
https://doi.org/10.1007/978-981-10-6463-0_51