Such a great article, during college I made a simple simulation connecting 40000 Izhikevich neurons in a squared layout, which generated some neat behaviors [1] - your article helped me understand better what was happening there. However I still find myself curious about the visible patters that emerge, would be great to have an article covering the dynamics of multiple neurons.
I've always been interested in this aspect of neuroscience but didn't realize 'computational' was a sub-field of its own. This is an amazing discovery for me. Can anyone else recommend any articles or (online) courses?
Thanks for this! I've been trying to find something quantitative about modeling neurons for a while now but everything seems to be either basic research ("when we poke the rat we get 50hZ spikes of 5mV in the temporal lobe" type information) or handwavey qualitative pop-sci ("neurons link together to make a magical biological computer"). This is great. :)
Nice! It bothers me a bit that in the first scroll plot, it says "input current (mV): -5" - not only because current is measured in A, but also because I don't know how the input is applied and how the membrane potential is measured.
9 comments
[ 4.0 ms ] story [ 29.4 ms ] thread[1] - https://vimeo.com/25477585
https://www.indiebound.org/book/9780262541855
Or the free textbook from Izhikevich: https://www.izhikevich.org/publications/dsn.pdf
The way dynamical systems are explained is nice and refreshing, esp keeping novices in mind.
Definitely recommending to the team.