Publications
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Filters: Author is M. H. Herzog [Clear All Filters]
Spatial interactions determine temporal feature integration as revealed by unmasking. Advances in Experimental Psychology (2006).
Dynamics of neuronal populations modeled by Wilson-Cowan system account for the transient visibility of masked stimuli. Neurocomputing 52–54, 747–753 (2003).
2002_ernst_neucom.pdf (574.99 KB)

Extending the shine-through effect to classical masking paradigms. Vision Research 43, 2659–2667 (2003).
2003_herzog_visres.pdf (148.97 KB)

Local interactions in neural networks explain global effects in the masking of visual stimuli. Neural Computation 15, 2091–2113 (2003).
2003_herzog_neurcomp.pdf (344.02 KB)

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).
Object representation through transient neural dynamics. Dynamic Perception (Workshop of GI section 1.0.4.) 71–76 (IOS press, 2002).
2002_ernst_dynperc.pdf (153.67 KB)

Objekterkennung: Ein Kamel Ist keine Palme. Gehirn und Geist 1, 11–13 (2002).
2002_herzog_gehirngeist.pdf (5.44 MB)

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).
2002_ernst_sfn.pdf (18.82 KB)

A dynamical system approach to emerging visibility as found in the shine-through effect. Fifth International Conference on Cognitive and Neural Systems (2001).
Shine-through – dynamical effects. Dynamics and adaptivity of neuronal Systems – integrative approaches to analyzing cognitive functions (Symposium) (2001).