Abstract
Head tracking is a fundamental component in visual attention detection, which, in turn, can improve the state of the art of hearing aid devices. A multitude of wearable devices for the ear (so called earables) exist. Current devices lack a magnetometer which, as we will show, represents a big challenge when one tries to use them for accurate head tracking. In this work we evaluate the performance of eSense, a representative earable device, to track head rotations. By leveraging two different streams (one per earbud) of inertial data (from the accelerometer and the gyroscope), we achieve an accuracy up to a few degrees. We further investigate the interference generated by a magnetometer in an earable to understand the barriers to its use in these types of devices.
Cite
CITATION STYLE
Ferlini, A., Montanari, A., Mascolo, C., & Harle, R. (2019). Head Motion Tracking Through in-EarWearables. In Proceedings of the 1st International Workshop on Earable Computing, EarComp 2019 (pp. 8–13). Association for Computing Machinery, Inc. https://doi.org/10.1145/3345615.3361131
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