Pinned Repositories
EphysDopa
Supplemental code for the paper "Electrophysiological classification of iPSC-derived dopaminergic neurons harbouring the SNCA-A53T mutation"
DeePhys
DeePhys was created to facilitate the analysis of extracellular recordings of neuronal cultures using high-density microelectrode arrays (HD-MEAs)
axon_tracking
Python package to reconstruct the functional/electrophysiological axonal morphology from HD-MEA recordings.
Controllability
DeePredictions
Code to predict neural dynamics using deep learning
multi-channel-systems-processing
Functions to work with multiwell channel systems multiwell MEAs
python-neo
Neo is a package for representing electrophysiology data in Python, together with support for reading a wide range of neurophysiology file formats
spikeinterface_24
A Python-based module for creating flexible and robust spike sorting pipelines.
spikesorting
spikeinterface
A Python-based module for creating flexible and robust spike sorting pipelines.
hornauerp's Repositories
hornauerp/axon_tracking
Python package to reconstruct the functional/electrophysiological axonal morphology from HD-MEA recordings.
hornauerp/spikesorting
hornauerp/DeePredictions
Code to predict neural dynamics using deep learning
hornauerp/DeePhys
DeePhys was created to facilitate the analysis of extracellular recordings of neuronal cultures using high-density microelectrode arrays (HD-MEAs)
hornauerp/spikeinterface_24
A Python-based module for creating flexible and robust spike sorting pipelines.
hornauerp/python-neo
Neo is a package for representing electrophysiology data in Python, together with support for reading a wide range of neurophysiology file formats
hornauerp/EphysDopa
Supplemental code for the paper "Electrophysiological classification of iPSC-derived dopaminergic neurons harbouring the SNCA-A53T mutation"
hornauerp/Controllability
hornauerp/multi-channel-systems-processing
Functions to work with multiwell channel systems multiwell MEAs