Design¶
Research¶
Pangolin Scales from g.tec.
3D printed cap for EEG.
<g.SAHARA actives electrodes by g.tec. "The g.SAHARA Hybrid EEG is made of a special conductive polymer".
Papers : Flexible electrodes: A. Velcescu, A. Lindley, C. Cursio, S. Krachunov, C. Beach, C. A. Brown, A. K. P. Jones and A. J. Casson, “Flexible 3D-printed EEG electrodes”, Sensors, vol. 19, no. 7, p. 1650, 2019. Rigid electrodes: S. Krachunov and A. J. Casson, “3D Printed Dry EEG Electrodes,” Sensors, vol. 16, no. 10, pp. 1635(1–18), 2016.
General Design¶
EEG Design¶
Electrodes¶
The papers below developped a 3D printed approach of dry electrodes. Both rigid and flexible electrodes files are provided in this github repository. Flexible electrodes: A. Velcescu, A. Lindley, C. Cursio, S. Krachunov, C. Beach, C. A. Brown, A. K. P. Jones and A. J. Casson, “Flexible 3D-printed EEG electrodes”, Sensors, vol. 19, no. 7, p. 1650, 2019. Rigid electrodes: S. Krachunov and A. J. Casson, “3D Printed Dry EEG Electrodes,” Sensors, vol. 16, no. 10, pp. 1635(1–18), 2016.
I decided to 3D print samples of rigid and flexible electrodes in resin and TPU respectively.
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For the moment I don't have silver coating. I am wondering if I could make electrodes from conductive biomaterial (carbon based) casted in a mold or with 3D printed conductive filament.
Mask Design¶
3DS Experience Lab¶
I received several courses from the 3DS Experience Lab to learn XGen and CATIA. To replicate the magnetic wave effect that I did with Grasshopper, the Fablab manager suggested to experiment with level curves and runoff simulation on land.
Painting the filament?¶
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