A Self-powered Wearable Wireless Sensor System Powered by a Hybrid Energy Harvester for Healthcare Applications-Reference-Cited by-同舟云学术

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A Self-powered Wearable Wireless Sensor System Powered by a Hybrid Energy Harvester for Healthcare Applications

Published:2020-09-22 Issue:4 Volume:116 Page:3143-3164
ISSN:0929-6212
Container-title:Wireless Personal Communications
language:en
Short-container-title:Wireless Pers Commun

Author:

Mohsen Saeed^ORCID,Zekry Abdelhalim^ORCID,Youssef Khaled^ORCID,Abouelatta Mohamed^ORCID

Publisher

Springer Science and Business Media LLC

Subject

Electrical and Electronic Engineering,Computer Science Applications

Link

https://link.springer.com/content/pdf/10.1007/s11277-020-07840-y.pdf

Reference57 articles.

1. Magno, M., Salvatore, G. A., Jokic, P., et al. (2019). Self-sustainable smart ring for long-term monitoring of blood oxygenation. IEEE Access, 7, 115400–115408.

2. Wu, T., Wu, F., Redoute, J.-M., et al. (2017). An autonomous wireless body area network implementation towards IoT connected. IEEE Access, 5, 11413–11422.

3. Seeger, C., Van Laerhoven, K., & Buchmann, A. (2015). Myhealthassistant: An event-driven middleware for multiple medical applications on a smartphone-mediated body sensor network. IEEE Journal of Biomedical and Health Informatics, 19(2), 752–760.

4. Sunitha, K. A., Dixit, S., & Singh, P. (2019). Design and development of a self-powered wearable device for a Tele-medicine application. Wireless Personal Communications. https://doi.org/10.1007/s11277-019-06394-y.

5. Lapinski, M., Brum, C., Moxley, D., Berkson, E., Gill, T. J., Kepple, T., et al. (2019). A wide-range, wireless wearable inertial motion sensing system for capturing fast athletic biomechanics in overhead pitching. Sensors, 2019, 3637.

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1. Self-powered wearable Internet of Things sensors for human-machine interfaces: A systematic literature review and science mapping analysis;Nano Energy;2024-09

2. Ambient energy harvesters in wearable electronics: fundamentals, methodologies, and applications;Journal of Nanobiotechnology;2024-08-20

3. Designing a Hybrid Energy-Efficient Harvesting System for Head- or Wrist-Worn Healthcare Wearable Devices;Sensors;2024-08-12

4. Flexible Thermoelectric Wearable Architecture for Wireless Continuous Physiological Monitoring;ACS Applied Materials & Interfaces;2024-07-09

5. Review—Energy and Power Requirements for Wearable Sensors;ECS Sensors Plus;2024-06-03

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