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Microwave-enabled wearables: underpinning technologies, integration platforms, and next-generation roadmap

Microwave-enabled wearables: underpinning technologies, integration platforms, and next-generation roadmap
Microwave-enabled wearables: underpinning technologies, integration platforms, and next-generation roadmap
This paper presents a holistic and authoritative review of the role of microwave technologies in enabling a new generation of wearable devices. A human-centric Internet of Things (IoT) covering remote healthcare, distributed sensing, and consumer electronics, calls for high-performance wearable devices integrated into clothing, which require interdisciplinary research efforts to emerge. Microwaves, the “interconnect” of wireless networks, can enable, rather than solely connect, the next generation of autonomous, sustainable, and wearable-friendly electronics. First, enabling technologies including wireless power transmission and RF energy harvesting, backscattering and passive communication, RFID, and electromagnetic sensing are reviewed. We then discuss the key integration platforms, covering smart fabrics and electronic textiles, additive manufacturing, printed electronics, natively-flexible and organic RF semiconductors, and fully-integrated CMOS systems, where opportunities for hybrid integration are highlighted. The emerging research trends, from mmWave 6G, RF sensing and imaging, to healthcare applications including neural implants, drug delivery, and safety upon exposure to microwaves are revisited and discussed, presenting a future roadmap for interdisciplinary research towards sustainable and reliable next-generation wearables.
wearables, e-textile, smart fabrics, flexible electronics, printed electronics, wearable electronics, wearable devices, RF-enabeld electronics, microwave-enabled electronics, microwave wearables, microwave sensors, RF sensors, sensors, RFID sensing, RFID, energy harvesting, RF energy harvesting, wireless power transfer, WPT, wireless power transmission, near-field WPT, rectennas, far-field WPT, SWIPT, battery-free wearables, wearable antennas, antennas, body-centric antennas, body-centric propgataion, backscattering, passive communication, backscatter tags, harmonic transponders, harmonic backscattering, textile antennas, flexible devices, flexible semiconductors, flexible RF semiconductors, wearable energy harvesting, RF sensing, wireless sensor networks, wearable metamaterials, textile metamaterials, body-centric metamaterials, on-body waveguides, NFC, near-field communication
2692-8388
Wagih, Mahmoud
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Balocchi, Leonardo
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Chiao, J.-C.
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Cui, Yepu
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Grosinger, Jasmin
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Marrocco, Gaetano
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Palazzi, Valentina
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Panunzio, Nicoletta
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Qaragoez, Yasser
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Rahmani, Hamed
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Rogier, Hendrik
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Romero Lopera, Jose
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Roselli, Luca
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Schreurs, Dominique
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Tentzeris, Manos
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Torah, Russel
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Torres, Ricardo
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Van Torre, Patrick
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Vital, Dieff
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Beeby, Steve
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Wagih, Mahmoud
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Balocchi, Leonardo
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Benassi, Francesca
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Carvalho, Nuno B.
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Chiao, J.-C.
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Correia, Ricardo
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Cui, Yepu
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Georgiadou, Dimitra
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Gouveia, Carolina
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Grosinger, Jasmin
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Ho, John S.
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Hu, Kexin
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Komolafe, Abiodun
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Lemey, Sam
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Loss, Caroline
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Marrocco, Gaetano
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Mitcheson, Paul
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Palazzi, Valentina
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Panunzio, Nicoletta
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Paolini, Giacomo
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Pinho, Pedro
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Qaragoez, Yasser
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Rahmani, Hamed
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Rogier, Hendrik
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Romero Lopera, Jose
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Roselli, Luca
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Schreurs, Dominique
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Tentzeris, Manos
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Tian, Xi
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Torah, Russel
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Torres, Ricardo
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Van Torre, Patrick
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Vital, Dieff
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Beeby, Steve
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Wagih, Mahmoud, Balocchi, Leonardo, Benassi, Francesca, Carvalho, Nuno B., Chiao, J.-C., Correia, Ricardo, Costanzo, Alessandra, Cui, Yepu, Georgiadou, Dimitra, Gouveia, Carolina, Grosinger, Jasmin, Ho, John S., Hu, Kexin, Komolafe, Abiodun, Lemey, Sam, Loss, Caroline, Marrocco, Gaetano, Mitcheson, Paul, Palazzi, Valentina, Panunzio, Nicoletta, Paolini, Giacomo, Pinho, Pedro, Preishuber-Pflugl, Josef, Qaragoez, Yasser, Rahmani, Hamed, Rogier, Hendrik, Romero Lopera, Jose, Roselli, Luca, Schreurs, Dominique, Tentzeris, Manos, Tian, Xi, Torah, Russel, Torres, Ricardo, Van Torre, Patrick, Vital, Dieff and Beeby, Steve (2022) Microwave-enabled wearables: underpinning technologies, integration platforms, and next-generation roadmap. IEEE Journal of Microwaves. (doi:10.1109/JMW.2022.3223254).

Record type: Review

Abstract

This paper presents a holistic and authoritative review of the role of microwave technologies in enabling a new generation of wearable devices. A human-centric Internet of Things (IoT) covering remote healthcare, distributed sensing, and consumer electronics, calls for high-performance wearable devices integrated into clothing, which require interdisciplinary research efforts to emerge. Microwaves, the “interconnect” of wireless networks, can enable, rather than solely connect, the next generation of autonomous, sustainable, and wearable-friendly electronics. First, enabling technologies including wireless power transmission and RF energy harvesting, backscattering and passive communication, RFID, and electromagnetic sensing are reviewed. We then discuss the key integration platforms, covering smart fabrics and electronic textiles, additive manufacturing, printed electronics, natively-flexible and organic RF semiconductors, and fully-integrated CMOS systems, where opportunities for hybrid integration are highlighted. The emerging research trends, from mmWave 6G, RF sensing and imaging, to healthcare applications including neural implants, drug delivery, and safety upon exposure to microwaves are revisited and discussed, presenting a future roadmap for interdisciplinary research towards sustainable and reliable next-generation wearables.

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Microwave-Enabled_Wearables_Underpinning_Technologies_Integration_Platforms_and_Next-Generation_Roadmap - Version of Record
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More information

Accepted/In Press date: 16 November 2022
e-pub ahead of print date: 13 December 2022
Published date: 13 December 2022
Keywords: wearables, e-textile, smart fabrics, flexible electronics, printed electronics, wearable electronics, wearable devices, RF-enabeld electronics, microwave-enabled electronics, microwave wearables, microwave sensors, RF sensors, sensors, RFID sensing, RFID, energy harvesting, RF energy harvesting, wireless power transfer, WPT, wireless power transmission, near-field WPT, rectennas, far-field WPT, SWIPT, battery-free wearables, wearable antennas, antennas, body-centric antennas, body-centric propgataion, backscattering, passive communication, backscatter tags, harmonic transponders, harmonic backscattering, textile antennas, flexible devices, flexible semiconductors, flexible RF semiconductors, wearable energy harvesting, RF sensing, wireless sensor networks, wearable metamaterials, textile metamaterials, body-centric metamaterials, on-body waveguides, NFC, near-field communication
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Identifiers

Local EPrints ID: 472725
URI: http://eprints.soton.ac.uk/id/eprint/472725
DOI: doi:10.1109/JMW.2022.3223254
ISSN: 2692-8388
PURE UUID: d4bdc1d7-24c7-4114-b1be-a3c7fecd4e8c
ORCID for Mahmoud Wagih: ORCID iD orcid.org/0000-0002-7806-4333
ORCID for Dimitra Georgiadou: ORCID iD orcid.org/0000-0002-2620-3346
ORCID for Abiodun Komolafe: ORCID iD orcid.org/0000-0002-3618-2390
ORCID for Russel Torah: ORCID iD orcid.org/0000-0002-5598-2860
ORCID for Steve Beeby: ORCID iD orcid.org/0000-0002-0800-1759

Catalogue record

Date deposited: 15 Dec 2022 17:50
Last modified: 27 Apr 2024 04:02

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Contributors

Author: Mahmoud Wagih ORCID iD
Author: Leonardo Balocchi
Author: Francesca Benassi
Author: Nuno B. Carvalho
Author: J.-C. Chiao
Author: Ricardo Correia
Author: Alessandra Costanzo
Author: Yepu Cui
Author: Dimitra Georgiadou ORCID iD
Author: Carolina Gouveia
Author: Jasmin Grosinger
Author: John S. Ho
Author: Kexin Hu
Author: Abiodun Komolafe ORCID iD
Author: Sam Lemey
Author: Caroline Loss
Author: Gaetano Marrocco
Author: Paul Mitcheson
Author: Valentina Palazzi
Author: Nicoletta Panunzio
Author: Giacomo Paolini
Author: Pedro Pinho
Author: Josef Preishuber-Pflugl
Author: Yasser Qaragoez
Author: Hamed Rahmani
Author: Hendrik Rogier
Author: Jose Romero Lopera
Author: Luca Roselli
Author: Dominique Schreurs
Author: Manos Tentzeris
Author: Xi Tian
Author: Russel Torah ORCID iD
Author: Ricardo Torres
Author: Patrick Van Torre
Author: Dieff Vital
Author: Steve Beeby ORCID iD

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