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Cognitive Neurodynamics

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01-06-2011 | Research article

Complexity measures of brain wave dynamics

Authors: Jianbo Gao, Jing Hu, Wen-wen Tung

Published in: Cognitive Neurodynamics | Issue 2/2011

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Abstract

To understand the nature of brain dynamics as well as to develop novel methods for the diagnosis of brain pathologies, recently, a number of complexity measures from information theory, chaos theory, and random fractal theory have been applied to analyze the EEG data. These measures are crucial in quantifying the key notions of neurodynamics, including determinism, stochasticity, causation, and correlations. Finding and understanding the relations among these complexity measures is thus an important issue. However, this is a difficult task, since the foundations of information theory, chaos theory, and random fractal theory are very different. To gain significant insights into this issue, we carry out a comprehensive comparison study of major complexity measures for EEG signals. We find that the variations of commonly used complexity measures with time are either similar or reciprocal. While many of these relations are difficult to explain intuitively, all of them can be readily understood by relating these measures to the values of a multiscale complexity measure, the scale-dependent Lyapunov exponent, at specific scales. We further discuss how better indicators for epileptic seizures can be constructed.

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Andrzejak R, Lehnertz K, Mormann F, Rieke C, David P, Elger C (2001) Indications of nonlinear deterministic and finite dimensional structures in time series of brain electrical activity: dependence on recording region and brain state. Phys Rev E 64:061,907CrossRef

Aschenbrenner-Scheibe R, Maiwald T, Winterhalder M, Voss H, Timmer J, Schulze-Bonhage A (2003) How well can epileptic seizures be predicted? An evaluation of a nonlinear method. Brain Behav Evol 126:2616

Atmanspacher H, Rotter S (2008) Interpreting neurodynamics: concepts and facts. Cogn Neurodyn 2:297–318PubMedCrossRef

Babloyantz A, Destexhe A (1986) Low-dimension chaos in an instance of epilepsy. Proc Natl Acad Sci 83:3513–3517PubMedCrossRef

Bandt C, Pompe B (2002) Permutation entropy: a natural complexity measure for time series. Phys Rev Lett 88:174,102CrossRef

Cao Y, Tung W, Gao J, Protopopescu V, Hively L (2004) Detecting dynamical changes in time series using the permutation entropy. Phys Rev E 70:046,217

Cover T, Thomas J (1991) Elements of information theory. Wiley, New YorkCrossRef

Deco G, Jirsa V, Robinson P, Breakspear M, Friston K (2008) The dynamic brain: from spiking neurons to neural masses and cortical fields. PLoS Comput Biol 4:e1000,092CrossRef

Fell J, Roschke J, Schaffner C (1996) Surrogate data analysis of sleep electroencephalograms reveals evidence for nonlinearity. Biol Cybern 75:85–92PubMedCrossRef

Freeman W (2009) Deep analysis of perception through dynamic structures that emerge in cortical activity from self-regulated noise. Cogn Neurodyn 3:105–116PubMedCrossRef

Gao J, Zheng Z (1993) Local exponential divergence plot and optimal embedding of a chaotic time series. Phys Lett A 181:153–158CrossRef

Gao J, Zheng Z (1994) Direct dynamical test for deterministic chaos and optimal embedding of a chaotic time series. Phys Rev E 49:3807–3814CrossRef

Gao J, Chen C, Hwang S, Liu J (1999) Noise-induced chaos. Int J Mod Phys B 13:3283–3305CrossRef

Gao J, Hwang S, Liu J (1999) When can noise induce chaos. Phys Rev Lett 82:1132–1135CrossRef

Gao J, Hu J, Tung W, Cao Y (2006) Distinguishing chaos from noise by scaledependent lyapunov exponent. Phys Rev E 74:066,204

Gao J, Hu J, Tung W, Cao Y, Sarshar N, Roychowdhury V (2006) Assessment of long range correlation in time series: how to avoid pitfalls. Phys Rev E 73:016,117

Gao J, Cao Y, Tung W, Hu J (2007) Multiscale analysis of complex time series-integration of chaos and random fractal theory, and beyond. Wiley, New York

Gaspard P, Wang X (1993) Noise, chaos, and (\(\epsilon,\tau\))-entropy per unit time. Phys Rep 235:291–343CrossRef

Grassberger P, Procaccia I (1983a) Characterization of strange attractors. Phys Rev Lett 50:346–349CrossRef

Grassberger P, Procaccia I (1983b) Estimation of the kolmogorov entropy from a chaotic signal. Phys Rev A 28:2591–2593CrossRef

Holmes M (2008) Dense array eeg: methodology and new hypothesis on epilepsy syndromes. Epilepsia 49(Suppl. 3):3–14PubMedCrossRef

Hu J, Gao J, Principe J (2006) Analysis of biomedical signals by the lempel-ziv complexity: the effect of finite data size. IEEE Trans Biomed Eng 53:2606–2609PubMedCrossRef

Hu J, Gao J, Tung W (2009) Characterizing heart rate variability by scale-dependent lyapunov exponent. Chaos 19:028506PubMedCrossRef

Hu J, Gao J, Tung W, Cao Y (2010) Multiscale analysis of heart rate variability: a comparison of different complexity measures. Ann Biomed Eng 38:854–864PubMedCrossRef

Hwa R, Ferree T (2002) Scaling properties of fluctuations in the human electroencephalogram. Phys Rev E 66:021901CrossRef

Hwang K, Gao J, Liu J (2000) Noise-induced chaos in an optically injected semiconductor laser. Phys Rev E 61:5162–5170CrossRef

Iasemidis L, Principe J, Sackellares J (1999) Measurement and quantification of spatiotemporal dynamics of human epileptic seizures. In: In nonlinear signal processing in, Press

Lai Y, Harrison M, Frei M, Osorio I (2003) Inability of lyapunov exponents to predict epileptic seizures. Phys Rev Lett 91:068102PubMedCrossRef

Lempel A, Ziv J (1976) On the complexity of finite sequences. IEEE Trans Inf Theory 22:75–81CrossRef

Mandelbrot B (1982) The fractal geometry of nature. Freeman, San Francisco

Martinerie J, Adam C, Quyen MLV, Baulac M, Clemenceau S, Renault B, Varela F (1998) Epileptic seizures can be anticipated by non-linear analysis. Nat Med 4:1173–1176PubMedCrossRef

Nagaragin R (2002) Quantifying physiological data with lempel-ziv complexity—certain issues. IEEE Trans Biomed Eng 49:1371–1373CrossRef

Napolitano C, Orriols M (2008) Two types of remote propagation in mesial temporal epilepsy: analysis with scalp ictal eeg. J Clin Neurophysiol 25:69–76PubMedCrossRef

Packard N, Crutchfield J, Farmer J, Shaw R (1980) Gemomtry from time-series. Phys Rev Lett 45:712–716CrossRef

Peng C, Buldyrev S, Havlin S, Simons M, Stanley H, Goldberger A (1994) On the mosaic organization of dna sequences. Phys Rev E 49:1685–1689CrossRef

Pijn J, Vanneerven J, Noest A, Lopes Da Silva F (1991) Chaos or noise in eeg signals—dependence on state and brain site. Electroencephalogr Clin Neurophys 79:371–381CrossRef

Plummer C, Harvey S, Cook M (2008) Eeg source localization in focal epilepsy: where are we now. Epilepsia 49:201–218PubMedCrossRef

Pritchard W, Duke D, Krieble K (1995) Dimensional analysis of resting human eeg ii: surrogate data testing indicates nonlinearity but not low-dimensional chaos. Psychophysiology 32:486–491PubMedCrossRef

Richman J, Moorman J (2000) Physiological time-series analysis using approximate entropy and sample entropy. Am J Physiol Heart Circ Physiol 278:H2039–H2049PubMed

Robinson P (2003) Interpretation of scaling properties of electroencephalographic fluctuations via spectral analysis and underlying physiology. Phys Rev E 67:032,902CrossRef

Rombouts S, Keunen R, Stam C (1995) Investigation of nonlinear structure in multichannel eeg. Phys Lett A 202:352–358CrossRef

Sauer T, Yorke J, Casdagli M (1991) Embedology. J Stat Phys 65:579–616CrossRef

Takens F (1981) Detecting strange attractors in turbulence. In: Rand DA, Young LS (eds) Dynamical systems and turbulence, lecture notes in mathematics, vol 898. Springer, p 366

Theiler J, Rapp P (1996) Re-examination of the evidence for low-dimensional, nonlinear structure in the human electroencephalogram. Electroencephalogr Clin Neurophysiol 98:213–222 16

Wolf A, Swift J, Swinney H, Vastano J (1985) Determining lyapunov exponents from a time series. Physica D 16:285CrossRef

Zhang X, Roy R, Jensen E (2001) Eeg complexity as a measure of depth of anesthesia for patients. IEEE Trans Biomed Eng 48:1424–1433PubMedCrossRef

Title: Complexity measures of brain wave dynamics
Authors: Jianbo Gao
Jing Hu
Wen-wen Tung
Publication date: 01-06-2011
Publisher: Springer Netherlands
Published in: Cognitive Neurodynamics / Issue 2/2011
Print ISSN: 1871-4080
Electronic ISSN: 1871-4099
DOI: https://doi.org/10.1007/s11571-011-9151-3

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