Patrique Fiedler

TL;DR: Dry multipin electrodes integrated in a textile EEG cap overcome the principle limitations of wet electrodes, allow rapid application of EEG multichannel caps by non-trained persons, and thus enable new fields of application for multich channel EEG acquisition.

TL;DR: In this article, a polymer-based electrode prototype for electroencephalography (EEG) is presented, which is able to monitor EEG signals similar to those of the commercial silver/silver chloride electrodes by using a fraction of the hydrating solution necessary for the commercial electrodes.

TL;DR: The influence of electrode-skin contact pressure and electrode substrate flexibility on interfacial impedance and perceived wearing comfort in a study on 12 volunteers provides the basis for improved EEG cap designs with optimal wearing comfort and recording quality for dry multipin electrodes, which will enable new fields of application for EEG.

TL;DR: In this paper, a novel type of dry titanium/titanium nitride (Ti/TiN) electrode was integrated into a novel electroencephalography (EEG) cap based on pneumatic-driven mechanisms.

TL;DR: Dry electrode cap is demonstrated to be equivalent to the gel-based electrode cap based on signal characteristics, comfort, and signal information content, thereby confirming the usefulness of dry electrodes in sports science and other mobile applications involving ample movement.