Details
Presenter(s)
![Shibam Debbarma Headshot](https://confcats-catavault.s3.amazonaws.com/CATAVault/ieeecass/master/files/styles/cc_user_photo/s3/user-pictures/19461_0.jpg?h=0ab75f1f&itok=Vp9vHGcM)
Display Name
Shibam Debbarma
- Affiliation
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AffiliationMcGill University
- Country
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CountryCanada
Abstract
Electrooculogram measurements suffer from random motion artifacts and environmental vibrations, which may have large dynamic range, and may saturate the overall measurement system output. Here, we present a wireless, wearable EOG monitoring system, implemented on a four-layer flexible substrate with the EOG system on the top layer, the electrodes on the bottom layer, ground and active-shielding on the middle layers, respectively. The system uses parallel non-contact electrode pair for EOG signal and motion artifacts detection and reduction. The battery-operated system uses a Bluetooth module for wireless data transmission. The system is experimentally characterized and validated for reducing motion artifacts.