Book Chapters

[6] Satuvuori E, Malvestio I, Kreuz T:

Measures of spike train synchrony and directionality

In: Neuro-Math, Mathematical and Computational Neuroscience: Cell, Network and Data analysis (Springer INdAM series, 2018 [Webpage])

[5] Kreuz T:

Synchronization measures.

In: R. Quian Quiroga, S. Panzeri (ed.) Principles of neural coding. CRC Taylor and Francis, Boca Raton, FL, USA. Pages 97-119 (2013).

[4] Houghton C, Kreuz T:

Measures of spike train synchrony: From single neurons to populations.

In: H. Schuster, M. Pesenson (ed.) Multiscale Analysis and Nonlinear Dynamics: from Molecules to the Brain. Wiley, Weinheim, Germany. Pages 277-298 (2013).

[3] Andrzejak RG, Kreuz T, Mormann F, Lehnertz K and Elger CE:

Surrogate time series improve the capability of nonlinear measures to characterize the epileptic process.

In: Klonowski (ed.) Simplicity behind complexity. Pabst Science Publishers, Berlin, Germany. Pages 360-366 (2004).

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

Characterizing the spatio-temporal dynamics of the epileptogenic process with nonlinear EEG analysis.

In: R. Tetzlaff (Hrsg.) Proceedings of the 7th IEEE International Workshop on Cellular Neural Networks and Their Applications. World Scientific, Singapore. Pages 228-242 (2002).

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

Analysis of EEG in epilepsy.

In: Nardulli G & Stramaglia S: Modelling biomedical signals. World Scientific, Singapore (2002).