Further Abstracts

[37] Satuvuori E, Kreuz T:

Neuronal population coding: A new algorithm to discriminate stimuli according to the labeled line hypothesis

SfN Meeting, Chicago, USA (2019).


[36] Satuvuori E, Kreuz T:

Which spike train distance is most suitable for distinguishing rate and temporal coding?

SfN Meeting, San Diego, USA (2018).


[35] Malvestio I, Kreuz T, Niediek J, Mormann F, Andrzejak RG:

Linear and nonlinear analysis of neuronal connectivity from spike trains

Areadne, Santorini, Greece (2018).


[34] Malvestio I, Kreuz T, Niediek J, Mormann F, Andrzejak RG:

Detection of interaction between brain regions: influence of sleep

Barccsynn, Barcelona, Spain (2018).


[33] Satuvuori E, Mulansky M, Kreuz T:

Using spike train distances to evaluate neuronal population coding, Part I

SfN Meeting, Washington DC, USA (2017).


[32] Malvestio I, Kreuz T, Mormann F, Andrzejak RG:

Using a non-linear interdependence approach to detect directional coupling from spike trains

SfN Meeting, Washington DC, USA (2017).


[31] Malvestio I, Kreuz T, Andrzejak RG:

Versatility of a nonlinear interdependence method for directional coupling detection from spike trains

EMBC, Jeju Island, South Korea (2017).


[30] Räisänen E, Mulansky M, Kreuz T:

Measures of spike train synchrony: Defining a minimum time scale for ISI and SPIKE-distances

SfN Meeting, San Diego, Ca, USA (2016).


[29] Räisänen E, Mulansky M, Kreuz T:

Measures of spike train synchrony: Defining a minimum time scale for ISI and SPIKE-distances

Conference Proceedings "Dynamic Days", Corfu, Greece (2016).


[28] Mulansky M, Bozanic N, Kreuz T:

Time-resolved and parameter-free measures of spike train synchrony: Properties and applications

CNS Conference, Prague, Czech Republic: BMC Neuroscience (2015).


[27] Bozanic N, Kreuz T:

SPIKY: a graphical user interface for monitoring spike train synchrony

CNS Conference, Paris, France: BMC Neuroscience 14, P225 (2013).


[26] Chicharro D, Kreuz T, Caporello E, Gentner TQ, Andrzejak RG:

Limitations of spike train distances to study the time-scales of natural sounds discrimination

SfN Meeting Program No. 578.8, San Diego, Ca, USA (2010).


[25] Chicharro D, Andrzejak RG, Kreuz T:

Studying the precision of temporal neural code: some limitations of spike train distances.

CNS Conference, Berlin, Germany: BMC Neuroscience 10, 130 (2009).


[24] Andrzejak RG, Kreuz T, Mormann F, Kraskov A, Elger CE, Lehnertz K:

Nonlinearity: the key to a successful characterization of the spatial distribution of the epileptic process.

Epilepsia 45(7), 66 (2004).


[23] Mormann F, Kraskov A, Kreuz T, Andrzejak RG, Osterhage H, Elger CE, Lehnertz K:

Seizure prediction: Influence of EEG band-pass filtering on the predictive performance of synchronization measures.

Epilepsia 45(7), 62 (2004).


[22] Andrzejak RG, Kreuz T, Mormann M, Widman G, Elger CE, Lehnertz, K:

Surrogate Corrected Nonlinear Measures Allow Improved Focus Localization From Intracranial EEG Recordings In Epilepsy Patients.

Dynamic Days Europe, Mallorca, Spain, (2004).


[21] Quian Quiroga R, Kreuz T, Grassberger P:

A Very Simple and Fast Measure of Synchronization and Delay Between Signals.

AIP Conf. Proc. 676, 372 (2003).


[20] Andrzejak RG, Kreuz T, Mormann F, Kraskov A, Rieke C, Elger CE, Lehnertz K:

Put your seizure prediction statistics to the test: The method of seizure time surrogates.

Epilepsia 44(9), 172 (2003).


[19] Mormann F, Kreuz T, Rieke C, Andrzejak RG, Kraskov A, Elger CE, Lehnertz K:

On the predictability of seizures.

Epilepsia 44(9), 172 (2003).


[18] Osterhage H, Mormann F, Kreuz T, Elger CE, Lehnertz K:

Synchronization and interdependence in intracranial EEG recordings from epilepsy patients: A comparative study.

Epilepsia 44(9), 232 (2003).


[17] Andrzejak RG, Kraskov A, Kreuz T, Stögbauer H, Mormann F, Lehnertz K, Grassberger P:

On the use of bivariate surrogates techniques in combination with nonlinear interdependence measures.

Conference Proceedings "Topical problems of nonlinear wave physics" NWP, Russia (2003).


[16] Kraskov A, Stögbauer H, Kreuz T, Andrzejak RG, Grassberger P:

New methods of calculating mutual information.

Conference Proceedings "Topical problems of nonlinear wave physics" NWP, Russia (2003).


[15] Mormann F, Kreuz T, Rieke C, Andrzejak RG, Kraskov A, David P, Elger CE, Lehnertz K:

Epilepsy: Does a pre-seizure state really exist?

Conference Proceedings "Topical problems of nonlinear wave physics" NWP, Russia (2003).


[14] Stögbauer H, Kraskov A, Kreuz T, Andrzejak RG, Grassberger P:

Multivariate analysis: Characterization of physiological states from intracranial EEG recordings.

Conference Proceedings "Topical problems of nonlinear wave physics" NWP, Russia (2003).


[13] Andrzejak RG, Rieke C, Mormann F, Kreuz T, David P, Elger CE, Lehnertz K:

On the influence of nonstationarity of the EEG on the capability of nonlinear surrogate measures to characterize the spatial distribution of the epileptogenic process.

Epilepsia 43 (7), 43 (2002).


[12] Kraskov A, Kreuz T, Quian Quiroga R, Grassberger P, Mormann F, Andrzejak RG, Elger CE, Lehnertz K:

Comparison of two phase synchronization analysis techniques for interictal focus lateralization in mesial temporal lobe epilepsy.

Epilepsia 43 (7), 48 (2002).


[11] Mormann F, Kreuz T, Andrzejak RG, Rieke C, Kraskov A, David P, Elger CE, Lehnertz K:


Preictal state detection in continuous intracranial EEG recordings based on decreased phase synchronization: problems and pitfalls.


Epilepsia 43 (7), 121 (2002).


[10] Quian Quiroga R, Kreuz T, Lehnertz K, Elger CE, Grassberger P:

Event Synchronization: A very simple and fast measure of synchronization and time delay patterns.

Epilepsia 43 (7), 49 (2002).


[9] Rieke C, Andrzejak RG, Mormann F, Kreuz T, David P, Elger CE, Lehnertz K:

The influence of nonstationarity and segmentation size on the analysis of intracranial EEG recordings.

Epilepsia 43 (7), 49 (2002).


[8] Stögbauer H, Yang L, Grassberger P, Andrzejak RG, Kreuz T, Kraskov A, Elger CE, Lehnertz K:

Lateralization of the focal hemisphere in mesial temporal lobe epilepsy using independent component analysis.

Epilepsia 43 (7), 51 (2002).


[7] Andrzejak RG, Kraskov A, Kreuz T, Mormann F, Grassberger P:


A comparison of the performance of different synchronization measures in combination with the method of bivariate surrogates.


Conference Proceedings "International Conference on Synchronization of Chaotic and Stochastic Systems", Saratov, Russia (2002).


[6] Kraskov A, Kreuz T, Mormann F, Quian Quiroga R, Elger CE, Lehnertz K, Grassberger P:

Comparison of two phase synchronization analysis techniques: "Hilbert" and "Wavelet" phase synchronization.

Conference Proceedings "International Conference on Synchronization of Chaotic and Stochastic Systems",

Saratov, Russia (2002).


[5] Andrzejak RG, Lehnertz K, Rieke C, Mormann F, Kreuz T, David P, Elger CE:

Focus lateralization in mesial temporal lobe epilepsy: A comparison of linear and nonlinear measures.

Epilepsia 42 (7), 98 (2001).


[4] Kraskov A, Kreuz T, Quian Quiroga R, Grassberger P, Mormann F, Lehnertz K, Elger CE:

Phase synchronization using continuous Wavelet Transform of the EEG for interictal focus localization in mesial temporal lobe epilepsy.

Epilepsia 42 (7), 38 (2001).


[3] Mormann F, Lehnertz K, Andrzejak RG, Kreuz T, Rieke C, David P, Elger CE:

Preictal state detection in intracranial EEG recordings from epilepsy patients using the linear cross correlation function.

Epilepsia 42 (7), 39 (2001).


[2] Rieke C, Lehnertz K, Andrzejak RG, Mormann F, Kreuz T, David P, Elger CE:

Characterizing nonstationarities in the EEG of epilepsy patients.

Epilepsia 42 (7), 40 (2001).


[1] Lehnertz K, Andrzejak RG, Mormann F, Kreuz T, David P, Elger CE:

Forecasting epileptic seizures: Adequacy of different EEG analysis techniques.

Epilepsia 41 (7), 212 (2000).