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Development of a small footprint device for measuring electrodermal activity in the palm of the hand

Åsmund Aukrust

Åsmund Aukrust

Department of Clinical and Biomedical Engineering, Oslo University HospitalOslo, Norway
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Aukrust, Åsmund
, 
Leah Marie Foseid

Leah Marie Foseid

Department of Clinical and Biomedical Engineering, Oslo University HospitalOslo, Norway
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Foseid, Leah Marie
 e 
Kristiane Holm

Kristiane Holm

Department of Physics, University of OsloOslo, Norway
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Holm, Kristiane
  
14 gen 2023
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Pubblicato online: 14 gen 2023
Pagine: 150 - 155
Ricevuto: 10 ott 2022
DOI: https://doi.org/10.2478/joeb-2022-0021
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© 2022 Åsmund Aukrust, Leah Marie Foseid and Kristiane Holm, published by Sciendo
This work is licensed under the Creative Commons Attribution 4.0 International License.

Figure 1

Functional design specification
Functional design specification

Figure 2

STM32L476 breakout board with feedback components and electrode connections
STM32L476 breakout board with feedback components and electrode connections

Figure 3

Pin configuration in STM32CubeIDE
Pin configuration in STM32CubeIDE

Figure 4

Electrode placement for the reference test
Electrode placement for the reference test

Figure 5

Photo of electrode placement and glove
Photo of electrode placement and glove

Figure 6

Plot of conductance for subject 1 Percentage change with electrodes in palm: 44,37% Percentage change with electrodes on arm: 43,43%
Plot of conductance for subject 1 Percentage change with electrodes in palm: 44,37% Percentage change with electrodes on arm: 43,43%

Figure 7

Plot of conductance for test subject 2 Percentage change with electrodes in palm: 73,78% Percentage change with electrodes on arm: 13,48%
Plot of conductance for test subject 2 Percentage change with electrodes in palm: 73,78% Percentage change with electrodes on arm: 13,48%

Figure 8

Plot of conductance for test subject 3 Percentage change with electrodes in palm: 51,16% Percentage change with electrodes on arm: 44,61%
Plot of conductance for test subject 3 Percentage change with electrodes in palm: 51,16% Percentage change with electrodes on arm: 44,61%

Figure 9

Plot of conductance for test subject 4 Percentage change with electrodes in palm: 76,81% Percentage change with electrodes on arm: 26,13%
Plot of conductance for test subject 4 Percentage change with electrodes in palm: 76,81% Percentage change with electrodes on arm: 26,13%

Figure 10

Plot of conductance for test subject 5 Percentage change with electrodes in palm: 38,18% Percentage change with electrodes on arm: 44,61%
Plot of conductance for test subject 5 Percentage change with electrodes in palm: 38,18% Percentage change with electrodes on arm: 44,61%
Lingua:
Inglese
Frequenza di pubblicazione:
1 volte all'anno
Argomenti della rivista:
Ingegneria, Bioingegneria ed ingegneria biomedicale, Elettronica biomedicale, Scienze biologiche, Biofisica, Medicina, Ingegneria biomedica, Fisica, Spettroscopia e metrologia
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