Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather Conditions

Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather Conditions

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The requirement of high data rate information transmission is rising exponentially for supporting different services including social networking, web streaming, and biomedical sensor data transmission. Such services required high channel bandwidth with secure information transmission and immunity to...

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Main Authors: Mehtab Singh, Sahil Nazir Pottoo, Suvidhi, Sanjeev Dewra, Rishabh, Amit Grover, A. Manikandan, Anu Sheetal
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-08-01
Series:Frontiers in Physics
Subjects:
HG
biomedical sensor data
MDM
RoFSO
5G technology
Online Access:https://www.frontiersin.org/articles/10.3389/fphy.2021.743545/full
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spelling doaj-e11df41898374077b9cb24cac87d6f562021-09-04T11:18:11ZengFrontiers Media S.A.Frontiers in Physics2296-424X2021-08-01910.3389/fphy.2021.743545743545Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather ConditionsMehtab Singh0Mehtab Singh1Sahil Nazir Pottoo2 Suvidhi3Sanjeev Dewra4 Rishabh5Amit Grover6A. Manikandan7Anu Sheetal8Department of Engineering and Technology, Guru Nanak Dev University, Jalandhar, IndiaDepartment of Electronics and Communication Engineering, SIET, Amritsar, IndiaCenter for Interdisciplinary Programs, Indian Institute of Technology Hyderabad, Telangana, IndiaDepartment of Computer Science and Engineering, Punjab Engineering College (Deemed to be University), Chandigarh, IndiaDepartment of Electronics and Communication Engineering, Shaheed Bhagat Singh State University, Ferozepur, IndiaDepartment of Computer Application, ABES Engineering College, Ghaziabad, IndiaDepartment of Electronics and Communication Engineering, Shaheed Bhagat Singh State University, Ferozepur, IndiaDepartment of Electronics and Communication Engineering, Vivekanandha College of Technology for Women, Tiruchengode, IndiaDepartment of Engineering and Technology, Guru Nanak Dev University, Gurdaspur, IndiaThe requirement of high data rate information transmission is rising exponentially for supporting different services including social networking, web streaming, and biomedical sensor data transmission. Such services required high channel bandwidth with secure information transmission and immunity to electromagnetic interference. Radio over free space optics (RoFSO) is witnessed as a promising technological solution to provide high data rate transmission over free space channel. We report on the design of a 2×10 Gb/s-10 GHz RoFSO transmission system using the mode division multiplexing technique and evaluate its transmission performance over varying levels of dust weather conditions. The comparison of non-return to zero (NRZ) and return to zero (RZ) binary digital optical modulation techniques is carried out in the proposed system. It is found that the proposed system using NRZ modulation serves 14.5 km transmission range; however, in the case of RZ modulation, it was restricted to 10 km for a target bit error rate (BER) of 10−6, thus resulting in a noticeable link enhancement of 4.5 km. Also, we demonstrate NRZ-based MDM-RoFSO link performance and availability in dust weather conditions using the BER, maximum reachable link range, and eye diagram as key performance parameters. We obtain a reliable transmission of 20 Gb/s-20 GHz data through HG00 and HG01 channels over a link range of 2500–108 m depending on the external dust weather condition. Furthermore, since this investigation shows the feasibility of RoFSO for small size cells, which is an essential feature of 5G mobile network, the proposed system can thus be implemented as a backhaul/fronthaul link for high-band (above 6 GHz) 5G services and for providing secure transmission of biomedical sensor data.https://www.frontiersin.org/articles/10.3389/fphy.2021.743545/fullHGbiomedical sensor dataMDMRoFSO5G technology
collection DOAJ
language English
format Article
sources DOAJ
author Mehtab Singh
Mehtab Singh
Sahil Nazir Pottoo
Suvidhi
Sanjeev Dewra
Rishabh
Amit Grover
A. Manikandan
Anu Sheetal
spellingShingle Mehtab Singh
Mehtab Singh
Sahil Nazir Pottoo
Suvidhi
Sanjeev Dewra
Rishabh
Amit Grover
A. Manikandan
Anu Sheetal
Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather Conditions
Frontiers in Physics
HG
biomedical sensor data
MDM
RoFSO
5G technology
author_facet Mehtab Singh
Mehtab Singh
Sahil Nazir Pottoo
Suvidhi
Sanjeev Dewra
Rishabh
Amit Grover
A. Manikandan
Anu Sheetal
author_sort Mehtab Singh
title Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather Conditions
title_short Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather Conditions
title_full Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather Conditions
title_fullStr Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather Conditions
title_full_unstemmed Performance Investigation of a High Data Rate Mode Division Multiplexed-Free Space Optics Link Under Harsh Weather Conditions
title_sort performance investigation of a high data rate mode division multiplexed-free space optics link under harsh weather conditions
publisher Frontiers Media S.A.
series Frontiers in Physics
issn 2296-424X
publishDate 2021-08-01
description The requirement of high data rate information transmission is rising exponentially for supporting different services including social networking, web streaming, and biomedical sensor data transmission. Such services required high channel bandwidth with secure information transmission and immunity to electromagnetic interference. Radio over free space optics (RoFSO) is witnessed as a promising technological solution to provide high data rate transmission over free space channel. We report on the design of a 2×10 Gb/s-10 GHz RoFSO transmission system using the mode division multiplexing technique and evaluate its transmission performance over varying levels of dust weather conditions. The comparison of non-return to zero (NRZ) and return to zero (RZ) binary digital optical modulation techniques is carried out in the proposed system. It is found that the proposed system using NRZ modulation serves 14.5 km transmission range; however, in the case of RZ modulation, it was restricted to 10 km for a target bit error rate (BER) of 10−6, thus resulting in a noticeable link enhancement of 4.5 km. Also, we demonstrate NRZ-based MDM-RoFSO link performance and availability in dust weather conditions using the BER, maximum reachable link range, and eye diagram as key performance parameters. We obtain a reliable transmission of 20 Gb/s-20 GHz data through HG00 and HG01 channels over a link range of 2500–108 m depending on the external dust weather condition. Furthermore, since this investigation shows the feasibility of RoFSO for small size cells, which is an essential feature of 5G mobile network, the proposed system can thus be implemented as a backhaul/fronthaul link for high-band (above 6 GHz) 5G services and for providing secure transmission of biomedical sensor data.
topic HG
biomedical sensor data
MDM
RoFSO
5G technology
url https://www.frontiersin.org/articles/10.3389/fphy.2021.743545/full
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