Recent neuroscientific and technical developments of brain machine interfaces have put increasing demands on neuroinformatic databases and data handling software, especially when managing data in real time from large numbers of neurons. Extrapolating these developments we here set out to construct a scalable software architecture that would enable near-future massive parallel recording, organization and analysis of neurophysiological data on a standard computer. To this end we combined, for the first time in the present context, bit-encoding of spike data with a specific communication format for real time transfer and storage of neuronal data, synchronized by a common time base across all unit sources. We demonstrate that our architecture c...
Objective. Longitudinal observation of single unit neural activity from large numbers of cortical ne...
Recent advances in both electrophysiological recording techniques and hardware capabilities have ena...
Current implantable brain-machine interfaces are recording multi-neuron activity by utilising multi-...
Recent neuroscientific and technical developments of brain machine interfaces have put increasing de...
Recording extracellulary from neurons in the brains of animals in vivo is among the most established...
<div><p>Recording extracellulary from neurons in the brains of animals in vivo is among the most est...
Technological advancements in analog and digital systems have enabled new approaches to study networ...
Complex animal behaviors are supported by computations made across large ensembles of neurons distri...
Developments in microfabrication technology have enabled the production of neural electrode arrays w...
Over past few years, the studies of cultured neuronal networks have opened up avenues for understand...
Over past few years, the studies of cultured neuronal networks have opened up avenues for understand...
A new data acquisition technique allows a microcomputer simultaneously to digitize spikes at high ra...
Uncovering spatial representations from large-scale ensemble spike activity in specific brain circui...
Thesis: Ph. D., Massachusetts Institute of Technology, School of Architecture and Planning, Program ...
Multisite electrophysiological recordings have become a standard tool for exploring brain functions....
Objective. Longitudinal observation of single unit neural activity from large numbers of cortical ne...
Recent advances in both electrophysiological recording techniques and hardware capabilities have ena...
Current implantable brain-machine interfaces are recording multi-neuron activity by utilising multi-...
Recent neuroscientific and technical developments of brain machine interfaces have put increasing de...
Recording extracellulary from neurons in the brains of animals in vivo is among the most established...
<div><p>Recording extracellulary from neurons in the brains of animals in vivo is among the most est...
Technological advancements in analog and digital systems have enabled new approaches to study networ...
Complex animal behaviors are supported by computations made across large ensembles of neurons distri...
Developments in microfabrication technology have enabled the production of neural electrode arrays w...
Over past few years, the studies of cultured neuronal networks have opened up avenues for understand...
Over past few years, the studies of cultured neuronal networks have opened up avenues for understand...
A new data acquisition technique allows a microcomputer simultaneously to digitize spikes at high ra...
Uncovering spatial representations from large-scale ensemble spike activity in specific brain circui...
Thesis: Ph. D., Massachusetts Institute of Technology, School of Architecture and Planning, Program ...
Multisite electrophysiological recordings have become a standard tool for exploring brain functions....
Objective. Longitudinal observation of single unit neural activity from large numbers of cortical ne...
Recent advances in both electrophysiological recording techniques and hardware capabilities have ena...
Current implantable brain-machine interfaces are recording multi-neuron activity by utilising multi-...