Advanced search
SenseLab
SimToolDB
ModelDB Help
User account
Login
Register
Find models by
Model name
First author
Each author
Region(circuits)
Find models for
Cell type
Current
Receptor
Gene
Transmitters
Concept
Simulators
Methods
Find models of
Realistic Networks
Neurons
Electrical synapses (gap junctions)
Chemical synapses
Ion channels
Neuromuscular junctions
Axons
Pathophysiology
Other resources
SenseLab mailing list
ModelDB related resources
Computational neuroscience ecosystem
Models in a git repository
Binocular energy model set for binocular neurons in optic lobe of praying mantis (Rosner et al 2019)
Download zip file
Help downloading and running models
Model Information
Model File
Citations
Accession:
266560
This is a version of the binocular energy model with parameters chosen to reproduce individual cells in praying mantis optic lobe. The receptive fields are very coarsely sampled (6 different horizontal locations only) to match the coarse sampling of the data given very limited recording time.
Reference:
1 .
Rosner R, von Hadeln J, Tarawneh G, Read JCA (2019) A neuronal correlate of insect stereopsis.
Nat Commun
10
:2845
[
PubMed
]
Model Information
(Click on a link to find other models with that property)
Model Type:
Neuron or other electrically excitable cell;
Brain Region(s)/Organism:
Optic lobe/Praying Mantis;
Cell Type(s):
Channel(s):
Gap Junctions:
Receptor(s):
Gene(s):
Transmitter(s):
Simulation Environment:
MATLAB;
MATLAB (web link to model);
Model Concept(s):
Binocular energy model/Stereopsis;
Simplified Models;
Implementer(s):
Read, Jenny [jenny.read at newcastle.ac.uk];
Download the displayed file
/
ModelDBCode
README.html
AddIsolines.m
BarStimuli.m
CellParameters.csv
FitACell.m
GetModelOutput.m
model_of_cell_rr151123_darkbar_on.mat
model_of_cell_rr160106_darkbar_off.mat
model_of_cell_rr160106_darkbar_on.mat
model_of_cell_rr160127_darkbar_on.mat
model_of_cell_rr160201_brightbar_on.mat
model_of_cell_rr160201_darkbar_on.mat
model_of_cell_rr160214_brightbar_on.mat
model_of_cell_rr160214_darkbar_on.mat
model_of_cell_rr160427_darkbar_on.mat
model_of_cell_rr160708_darkbar_on.mat
model_of_cell_rr160818_brightbar_on.mat
model_of_cell_rr160818_darkbar_on.mat
model_of_cell_rr161025_brightbar_on.mat
model_of_cell_rr161114_brightbar_on.mat
model_of_cell_rr161114_darkbar_off.mat
model_of_cell_rr161114_darkbar_on.mat
model_of_cell_rr170117_darkbar_on.mat
model_of_cell_rr170213_brightbar_on.mat
model_of_cell_rr170213_darkbar_off.mat
model_of_cell_rr170213_darkbar_on.mat
model_of_cell_rr170403_brightbar_on.mat
model_of_cell_rr170606_brightbar_on.mat
model_of_cell_rr170606_darkbar_off.mat
model_of_cell_rr170606_darkbar_on.mat
model_of_cell_rr170628_brightbar_on.mat
model_of_cell_rr170628_darkbar_off.mat
model_of_cell_rr170628_darkbar_on.mat
model_of_cell_rr170723_darkbar_on.mat
model_of_cell_rr171019_brightbar_on.mat
model_of_cell_rr171019_darkbar_on.mat
model_of_cellrr170117_darkbar_on.mat
ModelResponse.m
PlotModelRFs.m
PlotNeuronalData.m
ribbonplot.m
ribbonploty.m
RUNME.m
screenshot1.png
screenshot2.png
screenshot3.png
Thresh.m
WriteCSVfile.m
Loading data, please wait...
