Temporal decorrelation by intrinsic cellular dynamics (Wang et al 2003)

Add this entry.

Bookmark this on Yahoo Bookmark
Bookmark this on Delicious
Bookmark this on Google Bookmarks
Bookmark this on BuzzURL
Share on StumbleUpon
Share on GREE
Bookmark this on Livedoor Clip
Add Browser Bookmark

vDesktop Size:

Contributor:NIJC Administrator (nijcadmin)  |  Created Date: Mar 16, 2011 15:24:04  |  Visits:1665  |  Runs:10
Free Keywords: Neocortical pyramidal neuron, Ion Channel Kinetics, Calcium dybnamics, Oscillations
ID 70
Title Temporal decorrelation by intrinsic cellular dynamics (Wang et al 2003)
Free Keywords Neocortical pyramidal neuron, Ion Channel Kinetics, Calcium dybnamics, Oscillations
Description The present study was designed to test the hypothesis that the activation of adaptation ionic currents may provide a cellular mechanism for temporal decorrelation in V1. A conductance-based neuron model was simulated, which included an IKCa and an IKNa. The model neuron reproduces the adaptive behavior of V1 neurons in response to high contrast inputs.

After a minute the program completes and data files are generated for
figure 1 from the paper
Last Modified Date Mar 22, 2013 09:45:53
Created Date Mar 16, 2011 15:24:04
Contributor NIJC Administrator (nijcadmin)
Item Type Online Simulation
Change Log(History)
Mar 22, 2013 Modified; Contents URL.
Feb 2, 2012 Modified; Description, Free Keywords.
Mar 24, 2011 Modified; Index.
Mar 23, 2011 Modified; Preview, Simulator.
Model Contents URL http://senselab.med.yale.edu/modeldb/ShowModel.asp?model=84593
Hits:4
Model Site Name ModelDB
Simulator Name C/C++
Simulator Version
Index
/ Public / Title / T-X


Online Users
4 user(s) are online (3 user(s) are browsing Database)

Members: 0
Guests: 4

more...
Related Items