Publications - 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, Stoegbauer 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, Stoegbauer 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] Stoegbauer 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).
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] Stoegbauer 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).
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).