Synapses 1¶
- Svensson et al. (2019) “General principles of neuronal co-transmission: insights from multiple model systems”
- Cornford et al. (2023) "Learning to live with Dale’s principle: ANNs with separate excitatory and inhibitory units
Synapses 2¶
- Markram et al. (2011) “A history of spike-timing-dependent plasticity”
- Tsodyks & Wu (2013) “Short-term synaptic plasticity”
- Wan et al. (2013) “Regularization of neural networks using DropConnect”
Networks¶
- Sotelo (2003) “Viewing the brain through the master hand of Ramon y Cajal”
- Zheng et al. (2018) “A complete electron microscopy volume of the brain of adult Drosophila melanogaster”
- Marr (1969) "A theory of cerebellar cortex
- Strata (2009) "David Marr’s theory of cerebellar learning: 40 years later
- Shadmehr (2020) "Population coding in the cerebellum: a machine learning perspective
- Taube et al. (1990) “Head-direction cells recorded from the postsubiculum in freely moving rats”
- Skaggs et al. (1995) “A model of the neural basis of the rat’s sense of direction”
- Clandinin & Giocomo (2015) “Internal compass puts flies in their place”
- Seelig & Jayaraman (2015) “Neural dynamics for landmark orientation and angular path integration”
Synapse models¶
- Gerstner et al. (2014) “Neuronal Dynamics” Chapter 3.1 Synapses
- Tsodyks & Wu (2013) “Short-term synaptic plasticity”
- Hennig (2013) “Theoretical models of synaptic short term plasticity”
Network models¶
- SNUFA spiking neural network workshop
- Iulia Comsa proof that spiking neural networks are universal function approximators
- Comsa et al. (2019) “Temporal Coding in Spiking Neural Networks with Alpha Synaptic Function: Learning with Backpropagation”
- Grothe et al. (2010) “Mechanisms of Sound Localization in Mammals”
- Kremer et al. (2011) “Late emergence of the vibrissa direction selectivity map in the rat barrel cortex”
- Goodman et al. (2013) “Decoding neural responses to temporal cues for sound localization”
- Day and Delgutte (2013) “Decoding Sound Source Location and Separation Using Neural Population Activity Patterns”
- Dayan and Abbott (2001) “Theoretical Neuroscience” (free pdf)
- Wei Ji Ma et al. (2023) “Bayesian models of perception and action” (free online versions here)
- Okun and Lampl (2009) “Balance of excitation and inhibition”
- Goodman et al. (2018) “Modelling firing regularity in the ventral cochlear nucleus: mechanisms, and effects of stimulus level and synaptopathy”
- Prinz et al. (2004) “Similar network activity from disparate circuit parameters”
- Stimberg et al. (2019) “Brian 2, an intuitive and efficient neural simulator”
- Svensson, E., Apergis-Schoute, J., Burnstock, G., Nusbaum, M. P., Parker, D., & Schiöth, H. B. (2019). General Principles of Neuronal Co-transmission: Insights From Multiple Model Systems. Frontiers in Neural Circuits, 12. 10.3389/fncir.2018.00117
- Markram, H. (2011). A history of spike-timing-dependent plasticity. Frontiers in Synaptic Neuroscience, 3. 10.3389/fnsyn.2011.00004
- Tsodyks, M., & Wu, S. (2013). Short-term synaptic plasticity. Scholarpedia, 8(10), 3153. 10.4249/scholarpedia.3153
- Sotelo, C. (2003). Viewing the brain through the master hand of Ramon y Cajal. Nature Reviews Neuroscience, 4(1), 71–77. 10.1038/nrn1010
- Zheng, Z., Lauritzen, J. S., Perlman, E., Robinson, C. G., Nichols, M., Milkie, D., Torrens, O., Price, J., Fisher, C. B., Sharifi, N., Calle-Schuler, S. A., Kmecova, L., Ali, I. J., Karsh, B., Trautman, E. T., Bogovic, J. A., Hanslovsky, P., Jefferis, G. S. X. E., Kazhdan, M., … Bock, D. D. (2018). A Complete Electron Microscopy Volume of the Brain of Adult Drosophila melanogaster. Cell, 174(3), 730-743.e22. 10.1016/j.cell.2018.06.019