anita schmid
WMC
Publications
Ifije E. Ohiorhenuan, Ferenc Mechler, Keith P. Purpura, Anita M. Schmid, Jonathan D. Victor (2010).
Sparse coding and high-order correlations in fine-scale cortical networks.
Nature. 2010 Jul 4. [Epub ahead of print], Published Online
Anita M. Schmid, Keith P. Purpura, Ifije E. Ohiorhenuan, Ferenc Mechler, Jonathan D. Victor (2009).
Subpopulations of neurons in visual area V2 perform differentiation and integration operations in space and time.
Frontiers in Systems Neuroscience 3:15. doi:10.3389/neuro.06.015.2009, Published Online
Jonathan D. Victor, Ferenc Mechler, Ifije E. Ohiorhenuan, Anita M. Schmid, and Keith P. Purpura (2009).
Laminar and orientation-dependent characteristics of spatial nonlinearities: implications for the computational architecture of visual cortex.
Journal of Neurophysiology, Oct 2009; doi:10.1152/jn.00086.2009, Published Online
Anita M. Schmid (2008). The processing of feature discontinuities for different cue types in primary visual cortex.
Brain Research, Volume 1238, 31 October 2008, Pages 59-74, doi:10.1016/j.brainres.2008.08.029, Published Online
Free Access
Anita M. Schmid (2004). Processing of feature discontinuities in cat and monkey primary visual cortex.
PhD thesis, ETH Zürich, Nr. 15744, doi:10.3929/ethz-a-004876099.
ETH E-Collection
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Invited Talks
Subpopulations of neurons in visual area V2 perform differentiation and integration operations in space and time.January 2010, Rockefeller University
Subpopulations of neurons in visual area V2 perform differentiation and integration operations in space and time.
October 2009, Seminar, Redwood Center for Theoretical Neuroscience, UC Berkeley
Subpopulations of neurons in visual area V2 perform differentiation and integration operations in space and time.
June 2009, Vision Journal Club CNS, NYU
Conference Talks
Nonlinear receptive field mapping reveals two subpopulations of orientation selective neurons in V2. Computational and Systems Neuroscience 2009.
Understanding the processing of orientation discontinuities in V2 based on V1 input. Society of Neuroscience Annual Meeting 2008.
Processing of Orientation Discontinuities in Space and Time in V1 and V2. Vision Sciences Society Meeting 2008.
Abstracts
Schmid AM, Victor JD (2010).
Relationship of contextual modulations in V1 and V2 revealed by non- linear receptive field mapping
Frontiers in Systems Neuroscience. Conference Abstract: Computational and systems neuroscience. doi: 10.3389/conf.fnins.2010.03.00314,
Published Online
Schmid AM, Victor JD (2009).
Orientation change detection and orientation pooling in space and time performed by two subpopulations of neurons in V2 [Abstract].
Journal of Vision, 9(8):750, 750a, doi:10.1167/9.8.750, Published Online
Schmid AM, Victor JD (2009).
Nonlinear receptive field mapping reveals two subpopulations of orientation selective neurons in V2
Frontiers in Systems Neuroscience. Conference Abstract: Computational and systems neuroscience. doi: 10.3389/conf.neuro.06.2009.03.193,
Published Online
Schmid AM, Victor JD (2008).
Understanding the processing of orientation discontinuities in V2 based on V1 input
Program No. 215.7. 2008 Neuroscience Meeting Planner.
Washington, DC: Society for Neuroscience, 2008.
Schmid AM, Mechler F, Ohiorhenuan I, Purpura KP, Victor JD (2008). Processing of orientation discontinuities in space and time in V1 and V2 [Abstract]
Journal of Vision, 8(6):228, 228a, doi:10.1167/8.6.228, Published Online
Schmid AM, Martin KAC (2005).
Cue-Invariant Processing of Feature Discontinuities in Early Visual Cortex
Program No. 389.17. 2005 Abstract Viewer/Itinerary Planner.
Washington, DC: Society for Neuroscience, 2005.
Schmid AM, Martin KAC (2004).
How Feature Discontinuities are Detected in Cat Visual Cortex
Cosyne 2004, Computational and Systems Neuroscience. Cold Spring Harbor Laboratory, NY, USA. Online
Schmid AM, Martin KAC (2003).
Border Processing in Cat Visual Cortex
EPFL - Latsis Symposium on Neural Coding and Modeling, Lausanne, Switzerland.