Anton V. Chizhov


 

 

My computer programs:

 

  1. Epileptor-2 - Epileptor_2.exe exe-file of the Epileptor-2, a minimal biophysicallly meaningful model of ictal and interictal discharges [ A.V. Chizhov et al. // PloS CB 2018]. Web-application - Epileptor-2.html
  2. 2-d Cortex -- Brain.zip (try BRAIN.exe) - CBRD-based [ Chizhov // J.Comp.Neurosc. 2013], Fokker-Planck-based and Firing-Rate models of cortical areas (for example, 2-d distributed visual cortex was simulated - Movie and its Explanation )
  3. Conductance-Based Refractory Density approach for one population - CBRD.zip scripts in Delphi-Pascal and exe-file for Conductance-Based Refractory Density model of one neuronal population [ Chizhov_Graham_PRE_26_01_2007.pdf, Chizhov_Graham2008_PRE_77_011910.pdf]
  4. Single neuron models - Hodgkin.zip(try Hodgkin.exe) - the program runs different 1-compartmental, 2-compartmental and distributed neuron models and provides tools for analysis of neuronal activity, like f-I-G-plots, threshold dynamics, PSTH, Wiener kernels\PRC etc. [ Chizhov et al. // J.Comp.Neurosc. 2014]
  5. HH_approximations - HH_approximations.zip - the program demonstrates how the Hodgkin-Huxley's approximations can be fitted to experimental data.
  6. Artificial slice - ArtificialSlice.zip Model of interconnected excitatory and inhibitory neuronal populations as if recorded by whole-cell patch electrode. It is based on the Conductance-Based Refractory Density approach [1].
  7. Video prosthesis - Video Prosthesis.zip transfers video from the web-camera into sound
  8. Dynamic-Clamp - DC_Project.exe or Visualizator_and_DC_project_v22_1.zip scripts in Delphi-Pascal and exe-files for 1) Firing-Clamp method [Chizhov_et_al_FrontiersCellNeur2014.pdf] and other types of Dynamic-Clamp recordings. Requires NI-DAQ card for acquisition; 2) data visualization and analysis( Visualizator\Visualizator.exe)
  9. Supplementary - ExtractRing.exe ExtractRing.zip
  10. Model of an LGN neuron - Lgn.zip Simple model of an LGN neuron, based on spatio-temporal DOG receptive fields from [Abbott and Dayan 2002], taking into account the elongation of RFs and their nonlinearity in order to model orientation sensitivity.

 

Publications at the ResearchGate



Date of modifications:  13.01.2022