[[1] Teplan, M. (2002). Fundamentals of EEG measurement. Measurement Science Review, 2 (2), 1-11.]Search in Google Scholar
[[2] Bronzino, J.D. (2000). Principles of electroencephalography. In Bronzino, J.D. (ed.) Biomedical Engineering Handbook, (2nd ed.). CRC Press, 1-13.]Search in Google Scholar
[[3] Webster, J.G. (1998). Medical Instrumentation Application and Design (11th ed.). Wiley.]Search in Google Scholar
[[4] Abeles, M., Goldstein, M. (1977). Multispike train analysis. Proceedings of the IEEE, 65 (5), 762-773.10.1109/PROC.1977.10559]Search in Google Scholar
[[5] Winter, B.B., Webster, J.G. (1983). Driven-right-leg circuit design. IEEE Transactions on Biomedical Engineering, 30 (1), 62-66.10.1109/TBME.1983.3251686826188]Search in Google Scholar
[[6] Kutz, M. (2003). Standard Handbook of Biomedical Engineering and Design. McGraw-Hill.]Search in Google Scholar
[[7] Schnitz, B.A., Stewart, J.A., Allen, R.V., Fadem, K.C. (2004). Improving signal quality and test reliability in EEG measurements using integrated high-density surface-mount electronics. http://ebook.lib.sjtu.edu.cn/smat/Files/S2-3.pdf.]Search in Google Scholar
[[8] Teplan, M., Krakovska, A., Štolc, S. (2003). EEG in the context of audiovisual stimulation. Measurement Science Review, 3 (2), 17-20.]Search in Google Scholar
[[9] Teplan, M., Krakovska, A., Štolc, S. (2006). Shortterm effects of audio-visual stimulation on EEG. Measurement Science Review, 6 (4), 67-70.]Search in Google Scholar
[[10] Krakovska, A., Štolc, S. (2006). Fractal complexity of EEG signal. Measurement Science Review, 6 (4), 63-66.]Search in Google Scholar
[[11] Šušmakova, K., Krakovska, A. (2007). Classification of waking, sleep onset and deep sleep by single measures. Measurement Science Review, 7 (4), 34-38.]Search in Google Scholar
[[12] Šušmakova, K. (2006). Correlation dimension versus fractal exponent during sleep onset. Measurement Science Review, 6 (4), 58-62.]Search in Google Scholar
[[13] von Neumann, J. (1956). Probabilistic logic and the synthesis of reliable organisms from unreliable components. In Shannon, C., McCarthy, J. (eds.) Automata Studies. Princeton University Press, 43-98.10.1515/9781400882618-003]Search in Google Scholar
[[14] Wagdy, M.F., Ng, W. (1989). Validity of uniform quantization error model for sinusoidal signals without and with dither. IEEE Transactions on Instrumentation and Measurement, 38 (3), 718-722.10.1109/19.32180]Search in Google Scholar
[[15] Kamensky, M., Kovač, K. (2011). Correction of ADC errors by additive iterative method with dithering. Measurement Science Review, 11 (1), 15-18.10.2478/v10048-011-0004-3]Search in Google Scholar
[[16] Vujičić, V., Milovančev, S., Pešaljević, M., Pejić, D., Župunski, I. (1999). Low frequency stochastic true RMS instrument. IEEE Transactions on Instrumentation and Measurement, 48 (2), 467-470.10.1109/19.769630]Search in Google Scholar
[[17] Pejic, D., Vujicic, V. (2000). Accuracy limit of highprecision stochastic Watt-hour meter. IEEE Transactions on Instrumentation and Measurement, 49 (3), 617-620.10.1109/19.850404]Search in Google Scholar
[[18] Santrač, B., Sokola, M.A., Mitrović, Z., Župunski, I., Vujičić, V. (2009). A novel method for stochastic measurement of harmonics at low signal-to-noise ratio. IEEE Transactions on Instrumentation and Measurement, 58 (10), 3434-3441.10.1109/TIM.2009.2017661]Search in Google Scholar
[[19] Pjevalica, V., Vujičić, V. (2010). Further generalization of the low-frequency true-RMS instrument. IEEE Transactions on Instrumentation and Measurement, 59 (3), 736-744.10.1109/TIM.2009.2030874]Search in Google Scholar
[[20] Antić, B.M, Mitrović, Z.L, Vujičić V.V. (2012). A method for harmonic measurement of real power grid signals with frequency drift using instruments with internally generated reference frequency. Measurement Science Review, 12 (6), 277-285.10.2478/v10048-012-0038-1]Search in Google Scholar
[[21] Angeloneb, L.M., Purdona, P.L., Ahveninena, J., Belliveaua, J.W., Bonmassara, G. (2006). EEG/(f)MRI measurements at 7 Tesla using a new EEG cap (“InkCap”). NeuroImage, 33 (4), 1082-1092.]Search in Google Scholar
[[22] Negishi, M., Pinus, B.I., Pinus, A.B., Constable, R.T. (2007). Origin of the radio frequency pulse artifact in simultaneous EEG-fMRI recording: Rectification at the carbon-metal interface. IEEE Transactions on Biomedical Engineering, 54 (9), 1725-1727.10.1109/TBME.2007.891940349884517867368]Search in Google Scholar
[[23] Mirsattari, S.M., Ives, J.R., Leung, S., Menon, R.S. (2007). EEG monitoring during functional MRI in animal models. Epilepsia, 48 (4), 37-46.10.1111/j.1528-1167.2007.01240.x17767574]Search in Google Scholar
[[24] Allen, P.J., Josephs, O., Turner, R. (2000). A method for removing imaging artifact from continuous EEG recorded during functional MRI. NeuroImage, 12 (2), 230-239.10.1006/nimg.2000.059910913328]Search in Google Scholar
[[25] Sovilj, P.M., Milovančev, S.S., Vujičić, V. (2011). Digital stochastic measurement of a nonstationary signal with an example of EEG signal measurement. IEEE Transactions on Instrumentation and Measurement, 60 (9), 3230-3232.10.1109/TIM.2011.2128670]Search in Google Scholar
[[26] Sovilj, P., Vujičić, V., Pjevalica, N., Pejić, D., Urekar, M., Župunski, I. (2013). Influence of signal stationarity on digital stochastic measurement implementation. Electronics, 17 (1), 45-53.10.7251/ELS1317045S]Search in Google Scholar
[[27] Wilbraham, H. (1848). On a certain periodic function. The Cambridge and Dublin Mathematical Journal, 3, 198-201.]Search in Google Scholar
[[28] Gibbs, J.W. (1899). Fourier's series. Nature, 59 (1539), 606.10.1038/059606a0]Search in Google Scholar
[[29] Hazewinkel, M. (2001). Gibbs phenomenon. In Encyclopedia of Mathematics. Springer.]Search in Google Scholar
[[30] Smith, S.W. (1999). The Scientist and Engineer's Guide to Digital Signal Processing (2nd ed.). California Technical Publishing, 141-168.]Search in Google Scholar
[[31] International Organization of Legal Metrology. (1990). Electroencephalographs - Metrological characteristics - Methods and equipment for verification. OIML R 89, Edition 1990 (E).]Search in Google Scholar
[[32] g.tec - Guger Technologies, http://www.gtec.at.]Search in Google Scholar
[[33] Compumedics Neuroscan, http://compumedicsneuroscan.com/products-overview/. ]Search in Google Scholar