Multimodal Earable Sensing for Human Energy Expenditure Estimation
April 30, 2023 Β· Declared Dead Β· π Annual International Conference of the IEEE Engineering in Medicine and Biology Society
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Authors
Yasith Amarasinghe, Darshana Sandaruwan, Thilina Madusanka, Indika Perera, Lakmal Meegahapola
arXiv ID
2305.00517
Category
cs.HC: Human-Computer Interaction
Citations
8
Venue
Annual International Conference of the IEEE Engineering in Medicine and Biology Society
Last Checked
4 months ago
Abstract
Energy Expenditure Estimation (EEE) is vital for maintaining weight, managing chronic diseases, achieving fitness goals, and improving overall health and well-being. Gold standard measurements for energy expenditure are expensive and time-consuming, hence limiting utility and adoption. Prior work has used wearable sensors for EEE as a workaround. Moreover, earables (ear-worn sensing devices such as earbuds) have recently emerged as a sub-category of wearables with unique characteristics (i.e., small form factor, high adoption) and positioning on the human body (i.e., robust to motion, high stability, facing thin skin), opening up a novel sensing opportunity. However, earables with multimodal sensors have rarely been used for EEE, with data collected in multiple activity types. Further, it is unknown how earable sensors perform compared to standard wearable sensors worn on other body positions. In this study, using a publicly available dataset gathered from 17 participants, we evaluate the EEE performance using multimodal sensors of earable devices to show that an MAE of 0.5 MET (RMSE = 0.67) can be achieved. Furthermore, we compare the EEE performance of three commercial wearable devices with the earable, demonstrating competitive performance of earables
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