Bioinformatics of the Brain (Kayhan Erciyes, Tuba Sevimoğlu)

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Bioinformatics of the Brain

[37] E. Başar, B. T. Gölbaşı, E. Tülay, et al., “Best method for analysis of

brain oscillations in healthy subjects and neuropsychiatric diseases,” In-

ternational Journal of Psychophysiology, vol. 103, pp. 22–42, 05 2016.

[38] P. Sauseng and W. Klimesch, “What does phase information of oscilla-

tory brain activity tell us about cognitive processes?,” Neuroscience and

Biobehavioral Reviews, vol. 32, pp. 1001–1013, 07 2008.

[39] B. Hjorth, “Eeg analysis based on time domain properties,” Electroen-

cephalography and Clinical Neurophysiology, vol. 29, pp. 306–310, 09 1970.

[40] A. M. Bastos and J.-M. Schoffelen, “A tutorial review of functional con-

nectivity analysis methods and their interpretational pitfalls,” Frontiers

in Systems Neuroscience, vol. 9, 01 2016.

[41] S. Makeig, S. Debener, J. Onton, et al., “Mining event-related brain dy-

namics,” Trends in Cognitive Sciences, vol. 8, pp. 204–210, 05 2004.

[42] Pawan and R. Dhiman, “Machine learning techniques for electroen-

cephalogram based brain-computer interface: A systematic literature re-

view,” 08 2023.

[43] Z. J. Koles, M. S. Lazar, and S. Z. Zhou, “Spatial patterns underlying

population differences in the background eeg,” Brain Topography, vol. 2,

pp. 275–284, 1990.

[44] A. E. Hramov, V. A. Maksimenko, and A. N. Pisarchik, “Physical princi-

ples of brain–computer interfaces and their applications for rehabilitation,

robotics and control of human brain states,” Physics Reports, vol. 918,

pp. 1–133, 06 2021.

[45] S. Aggarwal and N. Chugh, “Review of machine learning techniques for

eeg based brain computer interface,” Archives of Computational Methods

in Engineering, vol. 29, 01 2022.

[46] 9th International Conference on Emerging Technologies (ICET), Evalu-

ation of ANN, LDA and Decision trees for EEG based Brain Computer

Interface, IEEE, 12 2013.

[47] 30th International Symposium on Computer-Based Medical Systems

(CBMS), A Comparison Study on EEG Signal Processing Techniques

Using Motor Imagery EEG Data, IEEE Xplore, 06 2017.

[48] 2009 International Conference on Information and Automation, Compar-

ison of different classification methods for EEG-based brain computer

interfaces: A case study, IEEE, 06 2009.

[49] A. M. Roy, “An eﬀicient multi-scale cnn model with intrinsic feature

integration for motor imagery eeg subject classification in brain-machine

interfaces,” Biomedical Signal Processing and Control, vol. 74, p. 103496,

04 2022.