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Charging unplugged: Will distributed laser charging for mobile wireless power transfer work?

Charging unplugged: Will distributed laser charging for mobile wireless power transfer work?
Charging unplugged: Will distributed laser charging for mobile wireless power transfer work?
Increasing the battery-recharge period of smartphones is becoming a challenge since their power consumption is increased as a result of enhanced functions that require sophisticated multimedia signal processing. An attractive solution is constituted by wireless charging, which is capable of replenishing the battery over the ether. Given this motivation, we present the fundamental physics and the related system structure of a promising wireless charging technique, i.e., distributed laser charging (DLC). Relying on DLC's unique features, we may be capable of transmitting approximately 2 W of power up to a distance of about 10 m. Following the comparison of the other three major wireless charging techniques, i.e., inductive coupling, magnetic resonance coupling, and microwave radiation, we demonstrate the benefits of DLC in the context of mobile applications. We then propose a pair of wireless charging network architectures, i.e., a DLC-aided, infrastructure-based network and a DLC-based ad-hoc network. These network architectures illustrate the potential of DLC in realizing the fully charged utopia for any device, anywhere, and anytime.
1556-6072
36-45
Liu, Qingwen
b1937e06-3adb-4005-9df8-76f66733ec90
Jun, Wu
3057c826-cf65-43d6-881f-9301b080c3ef
Pengfei, Xia
6c0fc29b-f380-421f-88fa-cd490a750089
Zhao, Shengjie
6c789017-e005-4c83-a40b-521f81d8fbfd
Yang, Yanping
2274e955-dd7a-4ee5-ae8b-715aac06a600
Chen, Wei
f1300327-fa4e-44a0-8e60-535428f4caa6
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Liu, Qingwen
b1937e06-3adb-4005-9df8-76f66733ec90
Jun, Wu
3057c826-cf65-43d6-881f-9301b080c3ef
Pengfei, Xia
6c0fc29b-f380-421f-88fa-cd490a750089
Zhao, Shengjie
6c789017-e005-4c83-a40b-521f81d8fbfd
Yang, Yanping
2274e955-dd7a-4ee5-ae8b-715aac06a600
Chen, Wei
f1300327-fa4e-44a0-8e60-535428f4caa6
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1

Liu, Qingwen, Jun, Wu, Pengfei, Xia, Zhao, Shengjie, Yang, Yanping, Chen, Wei and Hanzo, Lajos (2016) Charging unplugged: Will distributed laser charging for mobile wireless power transfer work? IEEE Vehicular Technology Magazine, 11 (4), 36-45. (doi:10.1109/MVT.2016.2594944).

Record type: Article

Abstract

Increasing the battery-recharge period of smartphones is becoming a challenge since their power consumption is increased as a result of enhanced functions that require sophisticated multimedia signal processing. An attractive solution is constituted by wireless charging, which is capable of replenishing the battery over the ether. Given this motivation, we present the fundamental physics and the related system structure of a promising wireless charging technique, i.e., distributed laser charging (DLC). Relying on DLC's unique features, we may be capable of transmitting approximately 2 W of power up to a distance of about 10 m. Following the comparison of the other three major wireless charging techniques, i.e., inductive coupling, magnetic resonance coupling, and microwave radiation, we demonstrate the benefits of DLC in the context of mobile applications. We then propose a pair of wireless charging network architectures, i.e., a DLC-aided, infrastructure-based network and a DLC-based ad-hoc network. These network architectures illustrate the potential of DLC in realizing the fully charged utopia for any device, anywhere, and anytime.

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More information

e-pub ahead of print date: 22 November 2016
Published date: December 2016
Organisations: Southampton Wireless Group
Learn more about Southampton Wireless Group research

Identifiers

Local EPrints ID: 406167
URI: http://eprints.soton.ac.uk/id/eprint/406167
DOI: doi:10.1109/MVT.2016.2594944
ISSN: 1556-6072
PURE UUID: 47555db0-98b5-4199-b87d-1910668cac73
ORCID for Lajos Hanzo: ORCID iD orcid.org/0000-0002-2636-5214

Catalogue record

Date deposited: 10 Mar 2017 10:41
Last modified: 18 Mar 2024 02:35

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Contributors

Author: Qingwen Liu
Author: Wu Jun
Author: Xia Pengfei
Author: Shengjie Zhao
Author: Yanping Yang
Author: Wei Chen
Author: Lajos Hanzo ORCID iD

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