4/1/2024 0 Comments Eeg sensor![]() ![]() In both cases, the number of electrodes is limited and their position is constrained to a relatively small area in or around the ears. ( 2015) Bleichner and Debener ( 2017)), placing electrodes closely to the ear in a circular arrangement around the outer ear (Debener et al. The second approach is around-the-ear EEG (Debener et al. ![]() There are two different approaches tackling this problem: one is in-ear-EEG, where electrodes are either placed in the outer ear canal or the concha (Kidmose et al. Of course, this puts constraints on the number and the placement of the few available electrodes. To this end, an ear-EEG system ideally avoids those issues and is no more visible or distracting than a hearing device or glasses. With classical, stationary EEG, including a larger number of scalp electrodes, cables and additional necessary equipment, measuring under real-life conditions is difficult. The goal of ear-EEG is to measure brain-electrical activity in natural, daily life conditions and over long periods of time. ( 2016)) or as part of hearing devices (Fiedler et al. ( 2017)) as well as attention tracking (Mirkovic et al. ( 2017)) or sleep-monitoring (Looney et al. For instance, ear-EEG could become an integral part for medical applications like epilepsy- (Zibrandtsen et al. Ear-EEG (electroencephalography) opens up new possibilities to record brain activity beyond the lab with minimal inconvenience for a person (Debener et al. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |