Comments (9)
I thought the gaussian falloff was for local network connection weights but that synchronous evoked inputs targeted all relevant cells (according to their type) at the same time and same strength. Is that not correct?
The gaussian fall-off is controlled by the "lamtha" parameter. For rhythmic inputs, it seems to be set at 100 and for evoked inputs, it's set at 3. So, what @stephanie-r-jones is saying seems correct. We need to make this stuff more transparent but getting their slowly!
Sure enough. Maybe we can add lamtha
as an optional argument in our updated feed-creation API.
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@rythorpe I'm closing this issue. It seems to be resolved now that we have a new feed-creation API and lamtha is a parameter with a different name -- space_constant
. Please feel free to reopen if you disagree
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I just observed this too with the default parameter set as a starting point where rhythmic inputs appear to have more of an effect. The code for generating inputs could use a lot of improvement. There aren't any methods for inspecting the generated rhythmic feeds in feed.py right now. If you wanted to add a method that allows comparison at the python level, we could definitely reuse that code as a test once integrated with hnn core.
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One important difference in the evoked vs rhythmic input is the spatial spread of the input in the network. If I recall correctly, the evoked input targets the center of the network with a gaussian falloff, while the rhythmic input has a wider fall off and contacts all of the cells with nearly equal strength. There is also the issue of synchrony of the inputs, and evoked inputs have the option of being synchronous or asynchronous to the cells, while this is not an option for rhythmic inputs. We need to clarify this on the website.
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@rythorpe I believe you are the best person to say what work remains to be done with this or if it will be part of hnn-core. Could you update this issue?
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@blakecaldwell I think it will be much more intuitive to address this issue in hnn-core. Most of it can be addressed as we update the API.
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Closed in favor of #114
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I thought the gaussian falloff was for local network connection weights but that synchronous evoked inputs targeted all relevant cells (according to their type) at the same time and same strength. Is that not correct?
The gaussian fall-off is controlled by the "lamtha" parameter. For rhythmic inputs, it seems to be set at 100 and for evoked inputs, it's set at 3. So, what @stephanie-r-jones is saying seems correct. We need to make this stuff more transparent but getting their slowly!
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Related Issues (20)
- BUG (GUI): Dipole plot scaling HOT 13
- GUI exporting simulations to csv HOT 6
- GUI load simulation from csv HOT 1
- GUI load network params and simulations from an hdf5 HOT 1
- Remove unnecessary files from param folder HOT 6
- GUI loading of base network connectivity from API
- BUG: `pick_connection` returns incorrect values when applied to network with no cell-cell connections HOT 3
- `plot_cells` error when users pass in a generic matplotlib.Axes instance HOT 8
- GUI: Clean up dev debug checks HOT 2
- Add Virtual Environment Directories to `.gitignore` HOT 6
- GUI: Creating figures with no data throws multiple exceptions
- hnn_widget.ipynb fails at cell 2 with list index out of range HOT 6
- GUI importing csv data files HOT 4
- API: network configurations I/O from hierarchical json
- Coverage not uploading to Codecov
- API: Change add_tonic_bias argument structure HOT 3
- API: Add name parameter to add_tonic_bias method
- qt issue hnn_core, also gui issue missing tabs HOT 1
- MPI timing out waiting for child process HOT 11
- GUI: Fix File Upload button height
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