Add to ORKGBeing able to record the electrical activities of a number of neurons simultaneously is likely to be important in the study of the functional organization of networks of real neurons. Using one extracellular microelectrode to record from several neurons is one approach to studying the response properties of sets of adjacent and therefore likely related neurons. However, to do this, it is necessary to correctly classify the signals generated by these different neurons. This paper considers this problem of classifying the signals in such an extracellular recording, based upon their shapes, and specifically considers the classification of signals in the case when spikes overlap temporally
For the analysis of neuronal cooperativity, simultaneously recorded extracellular signals from neigh...
Much experimental study of real neural networks relies on the proper classification of extracellula...
Extracellular multi-unit recording is a widely used technique to study spontaneous and evoked neuron...
Being able to record the electrical activities of a number of neurons simultaneously is likely to b...
Being able to record the electrical activities of a number of neurons simultaneously is likely to b...
When recording action potentials (spikes) from many neurons simultaneously via multichannel micro-el...
Multi-electrode arrays (MEAs) non-invasively record extracellular action potentials (eAPs, also know...
Simultaneous recordings of multiple neuron activities with multi-channel extracellular electrodes ar...
For the purpose of studying the mechanisms of information processing in the brain, understanding coo...
We examine the problem of estimating the spike trains of multiple neurons from voltage traces record...
Much experimental study of real neural networks relies on the proper classification of extracellula...
The application of multi-channel recording electrodes is expanding rapidly, as neuroscientists seek ...
For the analysis of neuronal cooperativity, simultaneously recorded extracellular signals from neigh...
Multi-electrode extracellular unit recordings have been extensively utilized for the investigation o...
With the advent of high-density multi-electrode arrays we are now able to measure the activity of h...
For the analysis of neuronal cooperativity, simultaneously recorded extracellular signals from neigh...
Much experimental study of real neural networks relies on the proper classification of extracellula...
Extracellular multi-unit recording is a widely used technique to study spontaneous and evoked neuron...
Being able to record the electrical activities of a number of neurons simultaneously is likely to b...
Being able to record the electrical activities of a number of neurons simultaneously is likely to b...
When recording action potentials (spikes) from many neurons simultaneously via multichannel micro-el...
Multi-electrode arrays (MEAs) non-invasively record extracellular action potentials (eAPs, also know...
Simultaneous recordings of multiple neuron activities with multi-channel extracellular electrodes ar...
For the purpose of studying the mechanisms of information processing in the brain, understanding coo...
We examine the problem of estimating the spike trains of multiple neurons from voltage traces record...
Much experimental study of real neural networks relies on the proper classification of extracellula...
The application of multi-channel recording electrodes is expanding rapidly, as neuroscientists seek ...
For the analysis of neuronal cooperativity, simultaneously recorded extracellular signals from neigh...
Multi-electrode extracellular unit recordings have been extensively utilized for the investigation o...
With the advent of high-density multi-electrode arrays we are now able to measure the activity of h...
For the analysis of neuronal cooperativity, simultaneously recorded extracellular signals from neigh...
Much experimental study of real neural networks relies on the proper classification of extracellula...
Extracellular multi-unit recording is a widely used technique to study spontaneous and evoked neuron...