Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation
10.3390/s110605819
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sg-nus-scholar.10635-1808582023-08-29T09:23:51Z Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation Liao, L.-D Wang, I Chen, S.-F Chang, J.-Y Lin, C.-T LIFE SCIENCES INSTITUTE article computer program electric conductivity electrode electroencephalography equipment design gel hair human impedance instrumentation methodology pathology reproducibility scalp signal processing skin wettability Electric Conductivity Electric Impedance Electrodes Electroencephalography Equipment Design Gels Hair Humans Reproducibility of Results Scalp Signal Processing, Computer-Assisted Skin Software Wettability 10.3390/s110605819 Sensors 11 6 5819-5834 2020-10-27T04:58:41Z 2020-10-27T04:58:41Z 2011 Article Liao, L.-D, Wang, I, Chen, S.-F, Chang, J.-Y, Lin, C.-T (2011). Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation. Sensors 11 (6) : 5819-5834. ScholarBank@NUS Repository. https://doi.org/10.3390/s110605819 1424-8220 https://scholarbank.nus.edu.sg/handle/10635/180858 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Unpaywall 20201031 |
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article computer program electric conductivity electrode electroencephalography equipment design gel hair human impedance instrumentation methodology pathology reproducibility scalp signal processing skin wettability Electric Conductivity Electric Impedance Electrodes Electroencephalography Equipment Design Gels Hair Humans Reproducibility of Results Scalp Signal Processing, Computer-Assisted Skin Software Wettability |
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article computer program electric conductivity electrode electroencephalography equipment design gel hair human impedance instrumentation methodology pathology reproducibility scalp signal processing skin wettability Electric Conductivity Electric Impedance Electrodes Electroencephalography Equipment Design Gels Hair Humans Reproducibility of Results Scalp Signal Processing, Computer-Assisted Skin Software Wettability Liao, L.-D Wang, I Chen, S.-F Chang, J.-Y Lin, C.-T Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation |
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10.3390/s110605819 |
author2 |
LIFE SCIENCES INSTITUTE |
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LIFE SCIENCES INSTITUTE Liao, L.-D Wang, I Chen, S.-F Chang, J.-Y Lin, C.-T |
format |
Article |
author |
Liao, L.-D Wang, I Chen, S.-F Chang, J.-Y Lin, C.-T |
author_sort |
Liao, L.-D |
title |
Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation |
title_short |
Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation |
title_full |
Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation |
title_fullStr |
Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation |
title_full_unstemmed |
Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation |
title_sort |
design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation |
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2020 |
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https://scholarbank.nus.edu.sg/handle/10635/180858 |
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