| 201 |
Orientation selectivity in inhibition-dominated recurrent networks (Sadeh and Rotter, 2015) |
| 202 |
Oscillations, phase-of-firing coding and STDP: an efficient learning scheme (Masquelier et al. 2009) |
| 203 |
Parallel Tempering MCMC on Liu et al 1998 (Wang et al 2022) |
| 204 |
Perfect Integrate and fire with noisy adaptation or fractional noise (Richard et al 2018) |
| 205 |
Phase response curves firing rate dependency of rat purkinje neurons in vitro (Couto et al 2015) |
| 206 |
Phase response theory in sparsely + strongly connected inhibitory NNs (Tikidji-Hamburyan et al 2019) |
| 207 |
Phenomenological models of NaV1.5: Hodgkin-Huxley and kinetic formalisms (Andreozzi et al 2019) |
| 208 |
PIR gamma oscillations in network of resonators (Tikidji-Hamburyan et al. 2015) |
| 209 |
Place and grid cells in a loop (Rennó-Costa & Tort 2017) |
| 210 |
Pleiotropic effects of SCZ-associated genes (Mäki-Marttunen et al. 2017) |
| 211 |
PLS-framework (Tikidji-Hamburyan and Colonnese 2021) |
| 212 |
Potjans-Diesmann cortical microcircuit model in NetPyNE (Romaro et al 2021) |
| 213 |
PyMUS: A Python based Motor Unit Simulator (Kim & Kim 2018) |
| 214 |
Python demo of the VmT method to extract conductances from single Vm traces (Pospischil et al. 2009) |
| 215 |
Recurrent amplification of grid-cell activity (D'Albis and Kempter 2020) |
| 216 |
Reduced-morphology model of CA1 pyramidal cells optimized + validated w/ HippoUnit (Tomko et al '21) |
| 217 |
Resource competition in growing neurites (Hjorth et al 2014) |
| 218 |
Reward modulated STDP (Legenstein et al. 2008) |
| 219 |
Scaffold model of mouse CA1 hippocampus. (Gandolfi et al 2022) |
| 220 |
Schiz.-linked gene effects on intrinsic single-neuron excitability (Maki-Marttunen et al. 2016) |
| 221 |
SCN1A gain-of-function in early infantile encephalopathy (Berecki et al 2019) |
| 222 |
SCZ-associated variant effects on L5 pyr cell NN activity and delta osc. (Maki-Marttunen et al 2018) |
| 223 |
Self-organization of cortical areas in development and evolution of neocortex (Imam & Finlay 2021) |
| 224 |
Sensory feedback in an oscillatory interference model of place cell activity (Monaco et al. 2011) |
| 225 |
Sensory-evoked responses of L5 pyramidal tract neurons (Egger et al 2020) |
| 226 |
Simulated cortical color opponent receptive fields self-organize via STDP (Eguchi et al., 2014) |
| 227 |
Simulation of calcium signaling in fine astrocytic processes (Denizot et al 2019) |
| 228 |
Single Trial Sequence learning: a spiking neurons model based on hippocampus (Coppolino et al 2021) |
| 229 |
Somatodendritic consistency check for temporal feature segmentation (Asabuki & Fukai 2020) |
| 230 |
Sound-evoked activity in peripheral axons of type I spiral ganglion neurons (Budak et al. 2021) |
| 231 |
Sparse connectivity is required for decorrelation, pattern separation (Cayco-Gajic et al 2017) |
| 232 |
Spatial structure from diffusive synaptic plasticity (Sweeney and Clopath, 2016) |
| 233 |
Spike-Timing-Based Computation in Sound Localization (Goodman and Brette 2010) |
| 234 |
Spikelet generation and AP initiation in a L5 neocortical pyr neuron (Michalikova et al. 2017) Fig 1 |
| 235 |
Spikelet generation and AP initiation in a simplified pyr neuron (Michalikova et al. 2017) Fig 3 |
| 236 |
Spiny Projection Neuron Ca2+ based plasticity is robust to in vivo spike train (Dorman&Blackwell) |
| 237 |
Spontaneous calcium oscillations in single astrocytes (Riera et al. 2011) (Manninen et al 2017) |
| 238 |
Spontaneous weakly correlated excitation and inhibition (Tan et al. 2013) |
| 239 |
STDP allows fast rate-modulated coding with Poisson-like spike trains (Gilson et al. 2011) |
| 240 |
STDP and oscillations produce phase-locking (Muller et al. 2011) |
