References
- [1] Dobrovoljac, M., Hengartner, H., Boltshauser, E., Grotzer, M.A. (2002). Delay in the diagnosis of paediatric brain tumours. European Journal of Pediatrics, 161 (12), 663-667.
- [2] Edgeworth, J., Bullock, P., Bailey, A., Gallagher, A., Crouchman, M. (1996). Why are brain tumours still being missed? Archives of Disease in Childhood, 74, 148-151.
- [3] Flores, L.E., Williams, D.L., Bell, B.A., O'Brien, M., Ragab, A.H. (1986). Delay in the diagnosis of pediatric brain tumors. American Journal of Diseases of Children, 140 (7), 684-686.
- [4] Reulecke, B.C., Erker, C.G., Fiedler, B.J., Niederstadt, T.U., Kurlemann, G. (2008). Brain tumors in children: Initial symptoms and their influence on the time span between symptom onset and diagnosis. Journal of Child Neurology, 23 (2), 178-183.
- [5] Musella, A. (2010-2013). Brain Tumor Symptoms Survey Results. http://www.virtualtrials.com/ braintumorsymptomssurvey.cfm.
- [6] Husing, B., Jancke, L., Tag, B. (2006). Impact Assessment of Neuroimaging. Final Report. vdf Hochschulverlag AG an der ETH Zürich. http://www.vdf.ethz.ch/service/3065/3065_Neuroimag ing_OA.pdf.
- [7] Walter, G. (1936). The location of cerebral tumors by electroencephalography. Lancet, 228 (5893), 305-308.
- [8] Accolla, E.A., Kaplan, P.W., Maeder-Ingvar, M., Jukopila, S., Rossetti, A.O. (2011). Clinical correlates of frontal intermittent rhythmic delta activity (FIRDA). Clinical Neurophysiology, 122, 27-31.
- [9] Bagchi, B.K., Kooh, K.A., Selving, B.T., Calhoun, H.D. (1961). Subtentorial tumors and other lesions: An electroencephalographic study of 121 cases. Electroencephalography and Clinical Neurophysiology, 13 (2), 180-192.
- [10] Silverman, D., Sannit, T., Ainspac, S., Freedman, S. (1960). Serial electroencephalography in brain tumors and cerebrovascular accidents. Archives of Neurology, 2 (2), 122-129.
- [11] Fischer-Williams, M. (2004). Brain tumors and other space-occupying lesions. In Electroencephalography: Basic Principles, Clinical Applications, and Related Fields. Lippincott Williams & Wilkins, 305-321.
- [12] Kumar, S. (2005). Asymmetric depression of amplitude in EEG leading to a diagnosis of ipsilateral cerebral tumor. Annals of Indian Academy of Neurology, 8, 33-36.
- [13] O’Connor, S.C. Robinson, P.A. (2005). Analysis of the electroencephalographic activity associated with thalamic tumors. Journal of Theoretical Biology, 233, 271-286.
- [14] Watemberg, N., Alehan, F., Dabby, R., Lerman-Sagie, T., Pavot, P., Towne, A. (2002). Clinical and radiologic correlates of frontal intermittent rhythmic delta activity. Journal of Clinical Neurophysiology, 19 (6), 535-539.
- [15] Chetty, S., Venayagamoorthy, G.K. (2002). A neural network based detection of brain tumours using electroencephalography. In Proceedings of IASTED International Conference Artificial Intelligence and Soft Computing, 17-19 July 2002, Banff, Canada, 391-396.
- [16] Habl, M., Bauer, Ch., Ziegaus, Ch., Lang, E.W., Schulmeyer, F. (200). Can ICA help identify brain tumor related EEG signals? In Proceedings of Second International Workshop on Independent Component Analysis and Blind Signal Separation, 19-22 June 2000, Helsinki, Finland, 609-614.
- [17] Karameh, F.N., Dahleh, M.A. (2000). Automated classification of EEG signals in brain tumor diagnostics. In Proceedings of the 2000 American Control Conference, 28-30 June 2000, Chicago, Illinois, 4169-4173.
- [18] Murugesan, M., Sukanesh, R. (2009). Automated detection of brain tumor in EEG signals using artificial neural networks. In Proceedings of 2009 International Conference on Advances in Computing, Control, and Telecommunication Technologies, 28-29 December 2009, Trivandrum, Kerala. IEEE, 284-288.
- [19] Nagata, K., Gross, C.E., Kindt, G.W., Geier, M.J., Adey, G.R. (1985). Topographic electroencephalographic study with power ratio index mapping in patients with malignant brain tumors. Neurosurgery, 17 (4), 613-619.
- [20] Silipo, R., Deco, G., Bartsch, H. (1999). Brain tumor classification based on EEG hidden dynamics. Intelligent Data Analysis, 3 (4), 287-306.
- [21] Ko, D.Y. (2009). EEG in Brain Tumors. http://emedicine.medscape.com/article/1137982- overview.
- [22] Picot, A., Charbonnier, S., Caplier. A. (2009). Monitoring drowsiness on-line using a single encephalographic channel. In Biomedical Engineering. In-Tech, 145-164. http://cdn.intechopen.com/pdfswm/8799.pdf.
- [23] Nunez, P.L., Srinivasan, R. (2006). Electric Fields of the Brain: The Neurophysics of EEG, (2nd Ed.). Oxford University Press.
- [24] Lofhede, J. (2007). Classification of Burst and Suppression in the Neonatal EEG. Unpublished doctoral dissertation, Chalmers University of Technology, Goteborg, Sweden.
- [25] Salido-Ruiz, R., Ranta, R., Louis-Dorr, V. (2011). EEG montage analysis in the blind source separation framework. Biomedical Signal Processing and Control, 6 (1), 77-84.
- [26] Hirsch, L., Brenner, R. (2009). Atlas of EEG in Critical Care, (1st Ed.). John Wiley & Sons.
- [27] Gudmundsson, S., Runarsson, T.P., Sigurdsson, S., Eiriksdottir, G., Johnsen, K. (2007). Reliability of quantitative EEG features. Clinical Neurophysiology, 118, 2162-2171.
- [28] Proakis, J.G., Manolakis, D.G. (2000). Digital Signal Processing Principles, Algorithms, and Applications, (3rd Ed.). Prentice-Hall of India.
- [29] Bao, F.S., Gao, J.M., Hu, J., Lie, D.Y.C., Zhang, Y., Oommen, K.J. (2009). Automated epilepsy diagnosis using interictal scalp EEG. In Proceedings of 31st Annual International Conference of the IEEE EMBS, 2-6 September 2009, Minneapolis, Minnesota. IEEE, 6603-6607.
- [30] Nikias, C.L., Raghuveer, M.R. (1987). Bispectrum estimation: A digital signal processing framework. Proceedings of the IEEE, 75 (7), 869-891.
- [31] Petropulu, A.P. (2000). Higher-order spectral analysis. In The Biomedical Engineering Handbook. CRC Press, 1-17.
- [32] Kim, Y.C., Powers, E.J. (1979). Digital bispectral analysis and its applications to nonlinear wave interactions. IEEE Transactions on Plasma Science, 7 (2), 120-131.
- [33] Elgar, S., Guza, R.T. (1988). Statistics of bicoherence. IEEE Transactions on Acoustics, Speech, and Signal Processing, 36 (10), 1667-1668.
- [34] Mahon, P., Greene, B.R., Greene, C., Boylan, G.B., Shorten, G.D. (2008). Behaviour of spectral entropy, spectral edge frequency 90%, and alpha and beta power parameters during low-dose propofol infusion. British Journal of Anaesthesia, 101 (2), 213-21.
- [35] Breakspear, M., Terry, J.R. (2002). Detection and description of non-linear interdependence in normal multichannel human EEG data. Clinical Neurophysiology, 113, 735-753.
- [36] Pereda, E., Cruz, D.M., Manas, S., Garrido, J.M., Lopez, S., Gonzalez, J.J. (2006). Topography of EEG complexity in human neonates: Effect of the postmenstrual age and the sleep state. Neuroscience Letters, 394, 152-157.
- [37] Blanco, S., Garcia, H., Quiroga, R.Q., Romanelli, L., Rosso, O.A. (1995). Stationaity of the EEG series. IEEE Engineering in Medicine and Biology, 14 (4), 395-399.
- [38] Jeong, J., Gore, J.C., Peterson, B.S. (2002). A method for determinism in short time series, and its application to stationary EEG. IEEE Transactions on Biomedical Engineering, 49 (11), 1374-79.
- [39] Spiegel, M.R., Schiller, J., Srinivasan, R.A. (2001). Probability and Statistics, (Schaum). New Delhi, India: McGraw Hill.
- [40] Montgomery, D.C., Runger, G.C. (2003). Applied Statistics and Probability for Engineers, (3rd Ed.). John Wiley & Sons.
- [41] DeGroot, M.H., Schervish, M.J. (2012). Probability and Statistics (4th Ed.). Addison-Wesley.
- [42] Gardner, M.J., Altman, D.G. (2005). Confidence intervals rather than P values. In Statistics with Confidence. Bristol: BMJ, 15-27.