This work aims to lower the barrier of entry by decreasing the fabrication complexity by using PCB components with versatile, user-generic designs.

Ear EEG has several advantages over the traditional modalities in that it is unobtrusive, located close to the subcortical activity, mechanically holds the ...

Scalable Anatomically-Tunable Fully In-Ear Dry-Electrode Array for User-Generic Unobtrusive Electrophysiology. M. Lee, A. Paul, T. Joung, Y. Xu, J. Wu, ...

Scalable Anatomically-Tunable Fully In-Ear Dry-Electrode Array for User-Generic Unobtrusive Electrophysiology. Resource URI: https://dblp.l3s.de/d2r ...

Scalable Anatomically-Tunable Fully In-Ear Dry-Electrode Array for User-Generic Unobtrusive Electrophysiology. MS Lee, A Paul, TH Joung, Y Xu, J Wu, WD ...

Scalable Anatomically-Tunable Fully In-Ear Dry-Electrode Array for User-Generic Unobtrusive Electrophysiology. EMBC 2023: 1-4. [+][–]. Coauthor network.

Publications (6) ; Scalable Anatomically-Tunable Fully In-Ear Dry-Electrode Array for User-Generic Unobtrusive Electrophysiology · Conference Paper. July 2023.

Gert Cauwenberghs: Scalable Anatomically-Tunable Fully In-Ear Dry-Electrode Array for User-Generic Unobtrusive Electrophysiology. EMBC 2023: 1-4; 2022. [c3].

Scalable Anatomically-Tunable Fully In-Ear Dry-Electrode Array for User-Generic Unobtrusive Electrophysiology. Annu Int Conf IEEE Eng Med Biol Soc. 2023 07 ...

Scalable Anatomically-Tunable Fully In-Ear Dry-Electrode Array for User-Generic Unobtrusive Electrophysiology. MS Lee, A Paul, TH Joung, Y Xu, J Wu, WD ...