Add to ORKGConventional neural recording systems restrict behavioral experiments to a flat indoor environment compatible with the cable that tethers the subject to recording instruments. To overcome these constraints, we developed a wireless multi-channel system for recording neural signals from rats. The device takes up to 64 voltage signals from implanted electrodes, samples each at 20 kHz, time-division multiplexes them into one signal and transmits that output by radio frequency to a receiver up to 60 m away. The system introduces <4 μV of electrode-referred noise, comparable to wired recording systems, and outperforms existing rodent telemetry systems in channel count, weight and transmission range. This allows effective recording of brain signal...
Intracranial neuronal recordings are essential for understanding neuronal function. They can be clas...
With the continued miniaturisation of portable embedded systems, wireless EEG recording techniques a...
SummaryBrain recordings in large animal models and humans typically rely on a tethered connection, w...
Conventional neural recording systems restrict behavioral experiments to a flat indoor environment c...
To understand the neural basis of behavior, it is necessary to record brain activity in freely movin...
Introduction ------------ In brain activity recordings, conventional systems require a bunch of ca...
Chronically implantable microelectrode arrays enable multichannel electrophysiological recordings fr...
OBJECTIVE: Elucidation of neural activity underpinning rodent behaviour has traditionally been hampe...
OBJECTIVE: Elucidation of neural activity underpinning rodent behaviour has traditionally been hampe...
ObjectiveStudying the brain in large animal models in a restrained laboratory rig severely limits ou...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
Intracranial neuronal recordings are essential for understanding neuronal function. They can be clas...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
Intracranial neuronal recordings are essential for understanding neuronal function. They can be clas...
With the continued miniaturisation of portable embedded systems, wireless EEG recording techniques a...
SummaryBrain recordings in large animal models and humans typically rely on a tethered connection, w...
Conventional neural recording systems restrict behavioral experiments to a flat indoor environment c...
To understand the neural basis of behavior, it is necessary to record brain activity in freely movin...
Introduction ------------ In brain activity recordings, conventional systems require a bunch of ca...
Chronically implantable microelectrode arrays enable multichannel electrophysiological recordings fr...
OBJECTIVE: Elucidation of neural activity underpinning rodent behaviour has traditionally been hampe...
OBJECTIVE: Elucidation of neural activity underpinning rodent behaviour has traditionally been hampe...
ObjectiveStudying the brain in large animal models in a restrained laboratory rig severely limits ou...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
Intracranial neuronal recordings are essential for understanding neuronal function. They can be clas...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
Intracranial neuronal recordings are essential for understanding neuronal function. They can be clas...
With the continued miniaturisation of portable embedded systems, wireless EEG recording techniques a...
SummaryBrain recordings in large animal models and humans typically rely on a tethered connection, w...