Harvesting the energy from environmental sources is a promising solution for perpetual and continuous operation of biomedical wearable devices. Although the energy harvesting …
There is an increasing interest in energy harvesting for wearable biomedical devices. This requires power conservation and management to ensure long-term and steady operation …
N Yamin, G Bhat, JR Doppa - … & Test in Europe Conference & …, 2022 - ieeexplore.ieee.org
Wearable devices are becoming increasingly popular for health and activity monitoring applications. These devices typically include small rechargeable batteries to improve user …
Many people in the world are living with chronic diseases, demanding continuous monitoring, diagnosis, and treatment. Continuous physiological monitoring is key to …
DH Gawali, VM Wadhai - 2017 11th International Conference …, 2017 - ieeexplore.ieee.org
Mobile healthcare systems have great potential for continuous monitoring. These devices are often battery operated. Thus energy management in these wearable, wireless devices is …
D Fan, LL Ruiz, J Lach - 2018 IEEE 15th International …, 2018 - ieeexplore.ieee.org
While body sensor networks (BSNs) have proven to be a feasible solution for long-term vigilant health monitoring, limited battery life remains one of the main factors that has …
New advances in energy harvesting from human's body enable battery-less wearable and implantable devices to have more advanced functionalities and hence higher number of …
M Preethika, MRB Ahmad, K Porkumaran… - … Conference on Artificial …, 2022 - Springer
Energy harvesting has become a key factor in Biomedical applications. Research on energy scavenging from body motion has been investigated to evaluate the feasibility of powering a …
R El Osta, M Chetto, H El Ghor - 2018 IEEE/ACS 15th …, 2018 - ieeexplore.ieee.org
This paper explores an energy harvesting-based approach for a jointly execution of hard periodic tasks mixed with occurring soft aperiodic tasks in battery-powered embedded …