Publications

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Filters: Author is Nergis Tömen  [Clear All Filters]
2019
Tömen, N., J. Herrmann, M. & Ernst, U. A. The functional role of critical dynamics in neural systems. Springer Series on Bio- and Neurosystems (Springer, 2019).
2018
Schünemann, M., Tömen, N. & Ernst, U. Cortical information integration with critical subnetworks: Large capacity, high accuracy, and rapid detection. BMC Neuroscience 2018 (2018).
Schünemann, M., Tömen, N. & Ernst, U. Cortical information integration with critical subnetworks: Large capacity, high accuracy, and rapid detection. Bernstein Conference 2018 (2018).
2017
Schünemann, M., Tömen, N. & Ernst, U. Critical subnetworks for feature integration. Bernstein Conference 2017 (2017).PDF icon BCCN_2017_Schuenemann et al.pdf (29.68 KB)
Tömen, N. & Ernst, U. Selective feature integration with critical dynamics in cortical subnetworks. BMC Neuroscience 2017 (2017).PDF icon Toemen_CNS2017.pdf (122.15 KB)
2015
Tömen, N. & Ernst, U. A. Optimal feature integration in critical, balanced network. Society for Neuroscience (SfN) Annual Meeting (2015).
Tömen, N. & Ernst, U. A. Optimal feature integration in critical, balanced networks. Annual Meeting of the German Neuroscience Society 2015 Poster T23-3C (2015).
Ernst, U. A. & Tömen, N. Optimal feature integration in critical, balanced networks. Computational and Systems Neuroscience (CoSyNe) Poster II-101 (2015).
2014
Tömen, N., Rotermund, D. & Ernst, U. A. Marginally subcritical dynamics explain enhanced stimulus discriminability under attention. Front Syst Neurosci. 2014 Aug 25 8, Article 151, (2014).PDF icon toemen_frontiers_2014-1.pdf (1.85 MB)
Tömen, N., Rotermund, D. & Ernst, U. Marginally subcritical dynamics explain enhanced stimulus discriminability under attention. 10th Bernstein Conference 2014, Frontiers (2014). doi:10.12751/nncn.bc2014.0036
Ernst, U. & Tömen, N. Optimal feature integration in critical, balanced networks. 3rd Workshop on the Brain: Criticality, Dynamics, Network and Function (2014).
2013
Tömen, N., Rotermund, D. & Ernst, U. A. Attention improves information processing. Göttingen Meeting of the German Neuroscience Society 2013 T26-5B (2013).
Tömen, N. & Ernst, U. A. Attention improves information processing by tuning cortical networks towards critical states. COSYNE II-41 (2013).
Tömen, N., Rotermund, D. & Ernst, U. A. Attention improves information processing by tuning cortical networks towards critical states. Göttingen Meeting of the German Neuroscience Society 2013 T26-5B (2013).
Tömen, N., Rotermund, D. & Ernst, U. Improved information processing under attention is explained by phase transitions in cortical dynamics. Brainmodes 2013 (2013).
2012
Tömen, N., Takemiya, M., Matsuo, T., Hasegawa, I. & Kamitani, Y. Feature Space Quantization for Data-Driven Search. IEEE Pattern Recognition in NeuroImaging (PRNI) 2012 41-44 (2012). doi:10.1109/PRNI.2012.17PDF icon Tomen_PRNI_2012.pdf (793.05 KB)