Suchergebnisse
Alle Typen
Poster (74)
201.
Poster
The coding of colour, motion and their conjunction revisited using fMRI pattern classifier analysis. 14th Annual Meeting of the Organisation for Human Brain Mapping (HBM 2008), Melbourne, Australia (2008)
202.
Poster
Mapping responses to natural stimuli in the primate brain: visual flow, retinotopy and tonotopy. V Workshop of the International School on Magnetic Resonance and Brain Function (ISMRBF 2007), Erice, Italy (2007)
203.
Poster
Natural movie stimuli allow mapping of retinotopy and tonotopy in anesthetized monkey cortex. AREADNE 2006: Research in Encoding and Decoding of Neural Ensembles, Santorini, Greece (2006)
204.
Poster
Movie presentation allows mapping of retinotopy, color, and face-related activity in the anesthetized monkey brain. 35th Annual Meeting of the Society for Neuroscience (Neuroscience 2005), Washington, DC, USA (2005)
205.
Poster
Low-level visual features correlate with distinct cortical regions during natural viewing of a movie. 34th Annual Meeting of the Society for Neuroscience (Neuroscience 2004), San Diego, CA, USA (2004)
Forschungspapier (7)
206.
Forschungspapier
Separated and overlapping neural coding of face and body identity. (eingereicht)
207.
Forschungspapier
Disrupting short-term memory in premotor but not visual cortex affects serial dependence in visuomotor integration. (eingereicht)
208.
Forschungspapier
Magic, Bayes and wows: a Bayesian account of magic tricks. (eingereicht)
209.
Forschungspapier
Large-scale color biases in the retinotopic functional architecture are shared across human brains. (eingereicht)
210.
Forschungspapier
Laminar Responses to Visual Motion and Pursuit Integration in Human Areas V3A and V6 Measured Using 9.4T fMRI. (eingereicht)
211.
Forschungspapier
9.4T Human fMRI Study Reveals that Real World Motion Perception Does Not Involve Laminar Organization in V1 and V5/MT. (eingereicht)
212.
Forschungspapier
Objective (Real-world) Motion Responses in Scene Responsive Regions. (eingereicht)
Bericht (1)
213.
Bericht
185). Max Planck Institute for Biological Cybernetics, Tübingen, Germany (2009), 10 S.
Semi-supervised subspace analysis of human functional magnetic resonance imaging data (Technical Report of the Max Planck Institute for Biological Cybernetics,