Download of EEG time series

Department of Epileptology

University of Bonn

EEG time series download page

The manuscript

Andrzejak RG, Lehnertz K, Rieke C, Mormann F, David P, Elger CE (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, 061907 abstract full text article

Please make sure that you cite the paper and that you cite it correctly when you publish results on these EEG recordings. A correct citation is essential, as it will allow others to find the data. The correct citation is

Phys. Rev. E, 64, 061907

Manuscripts of other groups which have analyzed the data

2003
[1] Gautama T, Mandic DP, Van Hulle MM (2003) Indications of nonlinear structures in brain electrical activity.
Phys. Rev. E, 67: 046204

2004
[2] Nigam VP, Graupe D (2004) A neural-network-based detection of epilepsy.
Neurol. Res. 26: 55-60

2005
[3] Güler I, Übeyli ED (2005) Adaptive neuro-fuzzy inference system for classification of EEG signals using wavelet coefficients.
Journal of Neuroscience Methods, 148: 113-121

[4] Srinivasan V, Eswaran C, Sriraam N (2005) Artificial Neural Network Based Epileptic Detection Using Time-Domain and Frequency-Domain Features.
Journal of Medical Systems, 29: 647-660

[5] Kannathala N, Rajendra Acharyab U, Limb CM and Sadasivana PK (2005) Characterization of EEG-A comparative study.
Computer Methods and Programs in Biomedicine, 80: 17-23

[6] Güler NF, Übeyli ED, Güller I (2005) Recurrent neural networks employing Lyapunov exponents for EEG signals classification.
Expert systems with applications, 29: 506-514

[7] Kannathala N, Choo ML, Acharyab UR, and Sadasivana PK (2005) Entropies for detection of epilepsy in EEG.
Computer Methods and Programs in Biomedicine, 80: 187-194.

2006
[8] Abdulhamit S (2006) EEG signal classification using wavelet feature extraction and a mixture of expert model.
Expert Systems with Applications, in press, doi:10.1016/j.eswa.2006.02.005

[9] Güler I and Übeyli̇ ED (2006) Expert systems for time-varying biomedical signals using eigenvector methods.
Expert Systems with Applications, in press, doi:10.1016/j.eswa.2006.02.002

[10] Harikrishnana KP, Misrab R, Ambikac G, Kembhavib AK (2006) A non-subjective approach to the GP algorithm for analysing noisy time series (2006) Physica D, 215, 137-145

The data

The data analyzed in our study is available on this page. The sampling rate of the data was 173.61 Hz. For a more detailed description of the data please refer to the manuscript Please note, however, that the time series have the spectral bandwith of the aquisition system, which is 0.5 Hz to 85 Hz. The application of a low-pass filter of 40 Hz, as described in the manuscript, is regarded as the first step of analysis and therefore not carried out for the downloadable time series. Everyone is invited to send their comments or questions by email: ralphandrzejak@ yahoo.de (remove the spaces in the address)

Files

For each set (A-E) there is a ZIP-file containing 100 TXT-files. Each TXT-file consists of 4096 samples of one EEG time series in ASCII code.

SET A    Z.zip     with     Z000.txt - Z100.txt   (564 kB)
SET B    O.zip     with     O000.txt - O100.txt (611 kB)
SET C    N.zip     with     N000.txt - N100.txt (560 kB)
SET D    F.zip     with     F000.txt - F100.txt   (569 kB)
SET E    S.zip     with     S000.txt - S100.txt   (747 kB)

Examples

This EPS-file (602kB) shows one exemplary EEG time series for every set. These are the time series Z093, O015, N062, F021, S056.

Links to other data sources

On the page of Rodrigo Quian Quiroga several time series of neuronal dynamics from humans and from animal models can be found along with corresponding manuscripts.

A very comprehensive collection of continuous EEG recordings can be found at the page of the Freiburg Center for Data Analysis and Modeling.

EEG / ERP data available for free public download

To be continued.

Back to: Ralph G. Andrzejak Neurophysics homepage,Epileptology homepage