Modeling of visual cortex

 

We simulate laminar cortical structure of V1 and V2 with neurons that obey shunting equations (first order approximation of Hodgkin-Huxley equations) and constraint the resultant cortical structure with neurophysiological and psychophysical data to reach a better explanation of some basic visual phenomena including figure-ground segregation, boundary ownership, the role of contrast relations in the perception of surfaces in depth, illusory contours and subjective surfaces.

 

The following is a list of the results that we have already presented:

 

Grossberg S., Yazdanbakhsh A. (2004). Laminar Cortical Dynamics of 3D Surface Perception: Stratification, Transparency, and Neon Color Spreading, Submitted to Vision Research

 

Grossberg S., Yazdanbakhsh A. (2003). Laminar cortical dynamics of 3D surface stratification, transparency, and neon spreading. 3^rd annual meeting of Vision Sciences Society, FR43, pp. 77

 

Grossberg S., & Yazdanbakhsh A. (2003). Laminar cortical mechanisms of 3D Surface Processing, Society for Neuroscience 33^rd annual meeting, 339.5 

 

Yazdanbakhsh A., Grossberg S. (2003). A laminar cortical model of 3D surface stratification, transparency and neon spreading, 7^th international conference on cognitive and neural systems