Publications
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Dynamics of neuronal populations modeled by Wilson-Cowan system account for the transient visibility of masked stimuli. Neurocomputing 52–54, 747–753 (2003).
Extending the shine-through effect to classical masking paradigms. Vision Research 43, 2659–2667 (2003).
Getting the picture. Scientific American Mind 12–13 (2003).
Local interactions in neural networks explain global effects in the masking of visual stimuli. Neural Computation 15, 2091–2113 (2003).
Bunsen-Roscoe-Blochś law holds for visibility of stimuli in neural populations whose activity obeys a Wilson-Cowan dynamics. NeuroNord Conference on Cognitive and Emotional Neuroscience, Delmenhorst (2002).
The Handbook of Brain Theory and Neural Networks, 2nd edition 294–300 (MIT Press, Cambridge MA, 2002).
Object representation through transient neural dynamics. Dynamic Perception (Workshop of GI section 1.0.4.) 71–76 (IOS press, 2002).
Transient activation of neural populations in a cortical model accounts for the transient visibility of masked stimuli. Society for Neuroscience Meeting 2002 161.10 (2002).
Transiente Merkmalsbindung und raumzeitliche Aktivitätsdynamik in einem Modell des visuellen Kortex. Frühjahrstagung: Verhandlungen der Deutschen Physikalischen Gesellschaft (DPG) SYPH 1.7 (2002).
Analytical approach to avalanches of spike activity in neural networks. 265th WE-Heraeus-Seminar, Synchronization in physics and neurosciences (2001).
Shine-through – dynamical effects. Dynamics and adaptivity of neuronal Systems – integrative approaches to analyzing cognitive functions (Symposium) (2001).
Avalanches of activity in neural networks: finite size effects. International Workshop on Dynamical Neural Networks and Applications, DYNN 2000 ( ) 26–27 (Bielefeld, 2000).
Avalanches of activity in a network of integrate-and-fire neurons with stochastic input. ICANN 1999 545–550 (University of Edinburgh, 1999).
Continuous dynamics of neuronal delay adaptation. ICANN 1998 Perspectives in Neural Computing 355–360 (Springer, London, 1998).