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Numerical simulations of a modified version of van Loon's model of binocular rivalry. The modifications allows for assymetric modulation of model parameters in order to simulate effects of monocular deprivation. This work was submitted as a term paper for Computational Neuroscience NEUR603 at McGill University, Winter2015.

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simRes
simRes
 
 
.gitattributes
.gitattributes
 
 
CITATION.cff
CITATION.cff
 
 
LICENSE
LICENSE
 
 
README.md
README.md
 
 
SebastienProulx_CompNeurosci_TermPaper.pdf
SebastienProulx_CompNeurosci_TermPaper.pdf
 
 
analyze_vanLoonSims.m
analyze_vanLoonSims.m
 
 
analyze_vanLoonSims_gammaOnly.m
analyze_vanLoonSims_gammaOnly.m
 
 
analyze_vanLoonSims_gammaOnly_triState.m
analyze_vanLoonSims_gammaOnly_triState.m
 
 
doIt.m
doIt.m
 
 
example.svg
example.svg
 
 
fitGammaDist.m
fitGammaDist.m
 
 
fitNormalDist.m
fitNormalDist.m
 
 
invivoVSinvitro.svg
invivoVSinvitro.svg
 
 
invivoVsInvitro.m
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ode_dVar.m
ode_dVar.m
 
 
phaseSpacePlot.svg
phaseSpacePlot.svg
 
 
plot_vanLoonSims.m
plot_vanLoonSims.m
 
 
run_vanLoonSims.m
run_vanLoonSims.m
 
 
run_vanLoonSims_assymetric.m
run_vanLoonSims_assymetric.m
 
 
run_vanLoonSims_example.m
run_vanLoonSims_example.m
 
 
run_vanLoonSims_example.mat
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run_vanLoonSims_example2.m
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run_vanLoonSims_example_stepByStep.fig
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run_vanLoonSims_example_step_by_step__alphaRight__1.fig
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run_vanLoonSims_example_step_by_step__gammaRight__1.fig
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run_vanLoonSims_example_step_by_step__gammaRight__2.fig
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run_vanLoonSims_example_step_by_step__gammaRight__2.svg
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run_vanLoonSims_phaseSpace2.m
run_vanLoonSims_phaseSpace2.m
 
 
run_vanLoonSims_phaseSpace2.mat
run_vanLoonSims_phaseSpace2.mat
 
 
run_vanLoonSims_phaseSpace2_1.mat
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run_vanLoonSims_phaseSpace2_2.mat
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run_vanLoonSims_phaseSpace2_3.mat
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run_vanLoonSims_phaseSpace2_4.mat
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run_vanLoonSims_phaseSpace2_5.mat
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run_vanLoonSims_phaseSpace2_6.mat
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run_vanLoonSims_phaseSpace2_7.mat
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run_vanLoonSims_phaseSpace3.m
run_vanLoonSims_phaseSpace3.m
 
 
run_vanLoonSims_phaseSpace3_1.mat
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run_vanLoonSims_phaseSpace3_2.mat
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run_vanLoonSims_phaseSpace3_3.mat
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run_vanLoonSims_phaseSpace3_4.mat
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run_vanLoonSims_phaseSpace3_5.mat
run_vanLoonSims_phaseSpace3_5.mat
 
 
run_vanLoonSims_phaseSpace3_6.mat
run_vanLoonSims_phaseSpace3_6.mat
 
 
run_vanLoonSims_phaseSpace3_7.mat
run_vanLoonSims_phaseSpace3_7.mat
 
 
run_vanLoonSims_symetric.m
run_vanLoonSims_symetric.m
 
 
run_vanLoonSims_symetric_gammaOnly.m
run_vanLoonSims_symetric_gammaOnly.m
 
 
run_vanLoonSims_symetric_gammaOnly_triState.m
run_vanLoonSims_symetric_gammaOnly_triState.m
 
 
sigmoid.m
sigmoid.m
 
 
vanLoonMod.png
vanLoonMod.png
 
 
vanLoonSim.m
vanLoonSim.m
 
 
visualize_vanLoonSims.m
visualize_vanLoonSims.m
 
 

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CC BY 4.0 DOI

Model Simulation of Binocular Rivalry for the Study of Monocular Deprivation

Numerical simulations of a modified version of van Loon's model of binocular rivalry [A. M. van Loon, T. Knapen, H. S. Scholte, E. St John-Saaltink, T. H. Donner and V. A. F. Lamme, Current Biology, Vol. 23 Issue 9 Pages 823-827, 2013]. The modifications allows for assymetric modulation of model parameters in order to simulate effects of monocular deprivation. This work was submitted as a term paper for Computational Neuroscience NEUR603 at McGill University, Winter2015 (see SebastienProulx_CompNeurosci_TermPaper.pdf).

Instructions

  • See doIt.m for the main script.
  • See SebastienProulx_CompNeurosci_TermPaper.pdf for the term paper.

License

This work is licensed under a Creative Commons Attribution 4.0 International License
by Sébastien Proulx, sebastien.prouxl2@mail.mcgill.ca, https://orcid.org/0000-0003-1709-3277
CC BY 4.0

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Numerical simulations of a modified version of van Loon's model of binocular rivalry. The modifications allows for assymetric modulation of model parameters in order to simulate effects of monocular deprivation. This work was submitted as a term paper for Computational Neuroscience NEUR603 at McGill University, Winter2015.

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