The Internet of Things (IoT) paradigm is currently highly demanded in multiple scenarios and in particular plays an important role in solving medical-related challenges. RF and microwave technologies, coupled with wireless energy transfer, are interesting candidates because of their inherent contactless spectrometric capabilities and for the wireless transmission of sensing data. This article reviews some recent achievements in the field of wearable sensors, highlighting the benefits that these solutions introduce in operative contexts, such as indoor localization and microwave sensing. Wireless power transfer is an essential requirement to be fulfilled to allow these sensors to be not only wearable but also compact and lightweight while avoiding bulky batteries. Flexible materials and 3D printing polymers, as well as daily garments, are widely exploited within the presented solutions, allowing comfort and wearability without renouncing the robustness and reliability of the built-in wearable sensor.

Costanzo A., Augello E., Battistini G., Benassi F., Masotti D., Paolini G. (2023). Microwave Devices for Wearable Sensors and IoT. SENSORS, 23(9), 1-18 [10.3390/s23094356].

Microwave Devices for Wearable Sensors and IoT

Costanzo A.
;
Augello E.;Battistini G.;Benassi F.;Masotti D.;Paolini G.
2023

Abstract

The Internet of Things (IoT) paradigm is currently highly demanded in multiple scenarios and in particular plays an important role in solving medical-related challenges. RF and microwave technologies, coupled with wireless energy transfer, are interesting candidates because of their inherent contactless spectrometric capabilities and for the wireless transmission of sensing data. This article reviews some recent achievements in the field of wearable sensors, highlighting the benefits that these solutions introduce in operative contexts, such as indoor localization and microwave sensing. Wireless power transfer is an essential requirement to be fulfilled to allow these sensors to be not only wearable but also compact and lightweight while avoiding bulky batteries. Flexible materials and 3D printing polymers, as well as daily garments, are widely exploited within the presented solutions, allowing comfort and wearability without renouncing the robustness and reliability of the built-in wearable sensor.
2023
Costanzo A., Augello E., Battistini G., Benassi F., Masotti D., Paolini G. (2023). Microwave Devices for Wearable Sensors and IoT. SENSORS, 23(9), 1-18 [10.3390/s23094356].
Costanzo A.; Augello E.; Battistini G.; Benassi F.; Masotti D.; Paolini G.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/926878
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