Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence Channels

Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence Channels

FSO communication is a viral technology among optical wireless communications, gathering the interest of both researchers and manufacturers. This is because of the many advantages associated with FSO communication, including high data rates, reliability, safety, and economy. However, there are sever...

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Main Authors: Panagiotis J. Gripeos, Hector E. Nistazakis, Andreas D. Tsigopoulos, Vasilis Christofilakis, Evgenia Roditi
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Photonics
Subjects:
FSO
BER
modulation scheme
atmospheric turbulence
pointing errors effect
time jitter effect
Online Access:https://www.mdpi.com/2304-6732/8/8/318
id doaj-b8a1b2e32b7c4fd496122ca1e30a050d
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spelling doaj-b8a1b2e32b7c4fd496122ca1e30a050d2021-08-26T14:13:38ZengMDPI AGPhotonics2304-67322021-08-01831831810.3390/photonics8080318Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence ChannelsPanagiotis J. Gripeos0Hector E. Nistazakis1Andreas D. Tsigopoulos2Vasilis Christofilakis3Evgenia Roditi4Department of Electronic Physics and Systems, Department of Physics, National and Kapodistrian, University of Athens, 15784 Athens, GreeceDepartment of Electronic Physics and Systems, Department of Physics, National and Kapodistrian, University of Athens, 15784 Athens, GreeceDivision of Combat Systems, Naval Operations, Sea Sciences, Νavigation, Electronics & Telecommunications Sector, Hellenic Naval Academy, 18539 Piraeus, GreeceElectronics-Telecommunications and Applications Laboratory, Physics Department, University of Ioannina, 45110 Ioannina, GreeceDepartment of Electronic Physics and Systems, Department of Physics, National and Kapodistrian, University of Athens, 15784 Athens, GreeceFSO communication is a viral technology among optical wireless communications, gathering the interest of both researchers and manufacturers. This is because of the many advantages associated with FSO communication, including high data rates, reliability, safety, and economy. However, there are several unavoidable drawbacks that shadow the performance of FSO systems. For example, atmospheric turbulence is a well-known problem related to the weather conditions of the channel, which causes the scintillation effect. Also, spatial jitter due to pointing errors is a critical factor of the link’s performance, caused by occasional misalignments between the transmitter and the receiver. Moreover, time jitter is another limiting agent that deteriorates the total throughput, inducing bit stream misdetections, caused by the arrival of out-of-sync pulses. All three effects have been exhaustively studied and many statistical models and interesting solutions have been proposed in the literature to estimate their magnitude and compensate for their impact. In this work, the turbulence effect was treated by Málaga distribution, the spatial jitter effect was regulated by the non-zero boresight model, and the time jitter effect was modeled by the generalized Gaussian distribution. Various modulation schemes were studied, along with DF multi-hop and optimal combining diversity techniques at the receiver’s end. New, accurate mathematical expressions of average BER performance have been obtained, and valuable conclusions were drawn thanks to the presented numerical results.https://www.mdpi.com/2304-6732/8/8/318FSOBERmodulation schemeatmospheric turbulencepointing errors effecttime jitter effect
collection DOAJ
language English
format Article
sources DOAJ
author Panagiotis J. Gripeos
Hector E. Nistazakis
Andreas D. Tsigopoulos
Vasilis Christofilakis
Evgenia Roditi
spellingShingle Panagiotis J. Gripeos
Hector E. Nistazakis
Andreas D. Tsigopoulos
Vasilis Christofilakis
Evgenia Roditi
Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence Channels
Photonics
FSO
BER
modulation scheme
atmospheric turbulence
pointing errors effect
time jitter effect
author_facet Panagiotis J. Gripeos
Hector E. Nistazakis
Andreas D. Tsigopoulos
Vasilis Christofilakis
Evgenia Roditi
author_sort Panagiotis J. Gripeos
title Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence Channels
title_short Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence Channels
title_full Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence Channels
title_fullStr Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence Channels
title_full_unstemmed Time and Spatial Jitter Influence on the Performance of FSO Links with DF Relays and OC Diversity Over Turbulence Channels
title_sort time and spatial jitter influence on the performance of fso links with df relays and oc diversity over turbulence channels
publisher MDPI AG
series Photonics
issn 2304-6732
publishDate 2021-08-01
description FSO communication is a viral technology among optical wireless communications, gathering the interest of both researchers and manufacturers. This is because of the many advantages associated with FSO communication, including high data rates, reliability, safety, and economy. However, there are several unavoidable drawbacks that shadow the performance of FSO systems. For example, atmospheric turbulence is a well-known problem related to the weather conditions of the channel, which causes the scintillation effect. Also, spatial jitter due to pointing errors is a critical factor of the link’s performance, caused by occasional misalignments between the transmitter and the receiver. Moreover, time jitter is another limiting agent that deteriorates the total throughput, inducing bit stream misdetections, caused by the arrival of out-of-sync pulses. All three effects have been exhaustively studied and many statistical models and interesting solutions have been proposed in the literature to estimate their magnitude and compensate for their impact. In this work, the turbulence effect was treated by Málaga distribution, the spatial jitter effect was regulated by the non-zero boresight model, and the time jitter effect was modeled by the generalized Gaussian distribution. Various modulation schemes were studied, along with DF multi-hop and optimal combining diversity techniques at the receiver’s end. New, accurate mathematical expressions of average BER performance have been obtained, and valuable conclusions were drawn thanks to the presented numerical results.
topic FSO
BER
modulation scheme
atmospheric turbulence
pointing errors effect
time jitter effect
url https://www.mdpi.com/2304-6732/8/8/318
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AT hectorenistazakis timeandspatialjitterinfluenceontheperformanceoffsolinkswithdfrelaysandocdiversityoverturbulencechannels
AT andreasdtsigopoulos timeandspatialjitterinfluenceontheperformanceoffsolinkswithdfrelaysandocdiversityoverturbulencechannels
AT vasilischristofilakis timeandspatialjitterinfluenceontheperformanceoffsolinkswithdfrelaysandocdiversityoverturbulencechannels
AT evgeniaroditi timeandspatialjitterinfluenceontheperformanceoffsolinkswithdfrelaysandocdiversityoverturbulencechannels
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