Journal ArticleDOI
NeuroMonitor: a low-power, wireless, wearable EEG device with DRL-less AFE
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TLDR
A new `DRL-less' AFE design is proposed, a wearable EEG device is developed, which is small, low-power, wireless, and battery operated, and has been validated against a research-grade EEG system (Neuroscan).Abstract:
Electroencephalography (EEG) is an effective tool to non-invasively capture brain responses. Traditional EEG analogue front end (AFE) requires a driven right leg (DRL) circuit that restricts the number of channels of the device. The authors are proposing a new `DRL-less' AFE design, and have developed a wearable EEG device (NeuroMonitor), which is small, low-power, wireless, and battery operated. The EEG device with two independent channels was fabricated on an 11.35 cm
2
PCB that contained a system-on-a-chip microcontroller, a low-noise instrument amplifier, a low-power Bluetooth module, a microSD, a microUSB, and a LiPo battery. The DRL circuit was eliminated by utilising the high CMRR instrument amplifier with differential inputs, and followed by a modified high-Q active Twin-T notch filter ((
f
c
Notch
= 60 Hz, -38 dB). The signal was conditioned with a band-pass filter composed of a two-stage 2nd-order Chebyshev-I Sallen-Key low-pass filter cascaded with a passive 2nd-order low-pass filter (
f
c
LP
= 125 Hz) and a 1st-order passive high-pass filter (
f
c
HP
= 0.5 Hz). Finally, the signal was amplified to achieve an overall gain of 55.84 dB, and digitised with a 16-bit delta-sigma ADC (256 sps). The prototype weighs 41.8 gm, and has been validated against a research-grade EEG system (Neuroscan).read more
Citations
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Journal ArticleDOI
Development of a Modular Board for EEG Signal Acquisition.
Tomas Uktveris,Vacius Jusas +1 more
TL;DR: The design and evaluation of a compact, modular, battery powered, conventional EEG signal acquisition board based on an ADS1298 analog front-end chip is presented and can be qualified as a low-cost precision cEEG research device.
Proceedings ArticleDOI
Development of a Modular Board for EEG Signal Acquisition
Tomas Uktveris,Vacius Jusas +1 more
TL;DR: This paper presents the design and implementation of a compact in size, modular battery powered conventional EEG (cEEG) signal acquisition board based on ADS1298 that allows solve EEG front-end scaling problem and to effectively reconfigure hardware even for most demanding applications.
Journal ArticleDOI
Diagnostic and therapeutic yield of a patient-controlled portable EEG device with dry electrodes for home-monitoring neurological outpatients-rationale and protocol of the HOMEONE pilot study.
Thomas Neumann,Anne Katrin Baum,Ulrike Baum,Renate Deike,Helmut Feistner,Hermann Hinrichs,Joseph Stokes,Bernt-Peter Robra +7 more
TL;DR: This will be the first study of its kind to examine new approaches to diagnosing unclear consciousness disorders or other disorders of the CNS or the cardiovascular system through the use of a patient-controlled portable EEG device with dry electrodes for the purpose of home-monitoring neurological outpatients.
Journal ArticleDOI
A low-power portable scanner for body-worn Wireless Resistive Analog Passive (WRAP) sensors for mHealth applications
Sabbir Zaman,Bashir I. Morshed +1 more
TL;DR: This device has demonstrated the possibility of small, low-power portable scanner for zero-power WRAP sensors that shows promise for real-life data collection from the study participants in Memphis Smart and Connected Community (S&CC).
Proceedings ArticleDOI
Front-end circuit design for electroencephalography (EEG) signal
TL;DR: The experimental results show that the system could implement the acquisition and storage of the EEG signals efficiently and would be a benefit to all involved in the use of EEG for clinical diagnosis and monitoring, or even for the braincomputer interface.
References
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A review of wearable sensors and systems with application in rehabilitation.
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How about taking a low-cost, small, and wireless EEG for a walk?
TL;DR: It is concluded that good quality, single-trial EEG data suitable for mobile brain-computer interfaces can be obtained with affordable hardware.
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