On the design of optical energy harvesting and storage systems for outdoor small cells

John Fakidis; Stefan Videv; Stepan Kucera; Holger Claussen; Harald Haas

doi:10.1109/ICC42927.2021.9500505

On the design of optical energy harvesting and storage systems for outdoor small cells

John Fakidis, Stefan Videv, Stepan Kucera, Holger Claussen, Harald Haas

Electronic And Electrical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

3 Citations (Scopus)

Abstract

Wireless backhaul communication and power provision to fifth-generation small cells (SCs) is expected to decrease their installation cost significantly. In this paper, hybrid solar/laser-based energy harvesting and storage are investigated for the self-sufficient year-round operation of outdoor SCs. The required electrical power for a SC is assumed to be 10 W according to state-of-the-art millimeter-wave phased-array transceivers. Here we show through simulations that hybrid solar/laser-based energy harvesting with storage and exclusive laser-based energy harvesting enable the SC operation not only in sunnier parts of the world but also in 'darker' places. Since the highest monthly power required from the laser is shown to be 10.1 W, a highly directive optical wireless link is designed using the simulation software Zemax. The operation wavelength of 1310 nm is selected because of the highest maximum permissible exposure of 1 W/cm2. The designed system is shown to be capable of harvesting 10.4 W at the distance of 100 m with transmitter-receiver dimensions of the order of cm3 and meeting eye-safety regulations for Class 1M.

Original language	English
Title of host publication	ICC 2021 - IEEE International Conference on Communications, Proceedings
Place of Publication	Piscataway, NJ.
Publisher	IEEE
ISBN (Print)	9781728171227
DOIs	https://doi.org/10.1109/ICC42927.2021.9500505
Publication status	Published - 14 Jun 2021
Event	2021 IEEE International Conference on Communications, ICC 2021 - Virtual, Online, Canada Duration: 14 Jun 2021 → 23 Jun 2021

Publication series

Name	IEEE International Conference on Communications
ISSN (Print)	1550-3607

Conference

Conference	2021 IEEE International Conference on Communications, ICC 2021
Country/Territory	Canada
City	Virtual, Online
Period	14/06/21 → 23/06/21

Funding

This work was supported in part by the Bell Labs, Nokia Ireland. The work of Harald Haas was supported in part by the Engineering and Physical Sciences Research Council under the Established Career Fellowship Grant EP/R007101/1 and in part by the Wolfson Foundation and the Royal Society.

Keywords

wireless communication
integrated optics
optical design
power lasers
transceivers
software
regulation

Access to Document

10.1109/ICC42927.2021.9500505

Cite this

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title = "On the design of optical energy harvesting and storage systems for outdoor small cells",

abstract = "Wireless backhaul communication and power provision to fifth-generation small cells (SCs) is expected to decrease their installation cost significantly. In this paper, hybrid solar/laser-based energy harvesting and storage are investigated for the self-sufficient year-round operation of outdoor SCs. The required electrical power for a SC is assumed to be 10 W according to state-of-the-art millimeter-wave phased-array transceivers. Here we show through simulations that hybrid solar/laser-based energy harvesting with storage and exclusive laser-based energy harvesting enable the SC operation not only in sunnier parts of the world but also in 'darker' places. Since the highest monthly power required from the laser is shown to be 10.1 W, a highly directive optical wireless link is designed using the simulation software Zemax. The operation wavelength of 1310 nm is selected because of the highest maximum permissible exposure of 1 W/cm2. The designed system is shown to be capable of harvesting 10.4 W at the distance of 100 m with transmitter-receiver dimensions of the order of cm3 and meeting eye-safety regulations for Class 1M.",

keywords = "wireless communication, integrated optics, optical design, power lasers, transceivers, software, regulation",

author = "John Fakidis and Stefan Videv and Stepan Kucera and Holger Claussen and Harald Haas",

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month = jun,

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series = "IEEE International Conference on Communications",

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Fakidis, J, Videv, S, Kucera, S, Claussen, H & Haas, H 2021, On the design of optical energy harvesting and storage systems for outdoor small cells. in ICC 2021 - IEEE International Conference on Communications, Proceedings. IEEE International Conference on Communications, IEEE, Piscataway, NJ., 2021 IEEE International Conference on Communications, ICC 2021, Virtual, Online, Canada, 14/06/21. https://doi.org/10.1109/ICC42927.2021.9500505

On the design of optical energy harvesting and storage systems for outdoor small cells. / Fakidis, John; Videv, Stefan; Kucera, Stepan et al.
ICC 2021 - IEEE International Conference on Communications, Proceedings. Piscataway, NJ.: IEEE, 2021. (IEEE International Conference on Communications).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

TY - GEN

T1 - On the design of optical energy harvesting and storage systems for outdoor small cells

AU - Fakidis, John

AU - Videv, Stefan

AU - Kucera, Stepan

AU - Claussen, Holger

AU - Haas, Harald

PY - 2021/6/14

Y1 - 2021/6/14

N2 - Wireless backhaul communication and power provision to fifth-generation small cells (SCs) is expected to decrease their installation cost significantly. In this paper, hybrid solar/laser-based energy harvesting and storage are investigated for the self-sufficient year-round operation of outdoor SCs. The required electrical power for a SC is assumed to be 10 W according to state-of-the-art millimeter-wave phased-array transceivers. Here we show through simulations that hybrid solar/laser-based energy harvesting with storage and exclusive laser-based energy harvesting enable the SC operation not only in sunnier parts of the world but also in 'darker' places. Since the highest monthly power required from the laser is shown to be 10.1 W, a highly directive optical wireless link is designed using the simulation software Zemax. The operation wavelength of 1310 nm is selected because of the highest maximum permissible exposure of 1 W/cm2. The designed system is shown to be capable of harvesting 10.4 W at the distance of 100 m with transmitter-receiver dimensions of the order of cm3 and meeting eye-safety regulations for Class 1M.

AB - Wireless backhaul communication and power provision to fifth-generation small cells (SCs) is expected to decrease their installation cost significantly. In this paper, hybrid solar/laser-based energy harvesting and storage are investigated for the self-sufficient year-round operation of outdoor SCs. The required electrical power for a SC is assumed to be 10 W according to state-of-the-art millimeter-wave phased-array transceivers. Here we show through simulations that hybrid solar/laser-based energy harvesting with storage and exclusive laser-based energy harvesting enable the SC operation not only in sunnier parts of the world but also in 'darker' places. Since the highest monthly power required from the laser is shown to be 10.1 W, a highly directive optical wireless link is designed using the simulation software Zemax. The operation wavelength of 1310 nm is selected because of the highest maximum permissible exposure of 1 W/cm2. The designed system is shown to be capable of harvesting 10.4 W at the distance of 100 m with transmitter-receiver dimensions of the order of cm3 and meeting eye-safety regulations for Class 1M.

KW - wireless communication

KW - integrated optics

KW - optical design

KW - power lasers

KW - transceivers

KW - software

KW - regulation

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M3 - Conference contribution book

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Y2 - 14 June 2021 through 23 June 2021

ER -

On the design of optical energy harvesting and storage systems for outdoor small cells

Abstract

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Keywords

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