Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication Systems

Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication Systems

Visible Light Communication (VLC) systems use light-emitting diode (LED) technology to provide high-capacity optical links. The advantages they offer, such as the high data rate and the low installation and operational cost, have identified them as a significant solution for modern networks. However...

Full description

Bibliographic Details
Main Authors: Dimitra K. Manousou, Argyris N. Stassinakis, Emmanuel Syskakis, Hector E. Nistazakis, Spiros Gardelis, George S. Tombras
Format: Article
Language:English
Published: MDPI AG 2019-06-01
Series:Computation
Subjects:
bit error rate
VLC
experimental optical filter
eSSK
VO<sub>2</sub> filter
Online Access:https://www.mdpi.com/2079-3197/7/2/30
id doaj-86432aba430740b18fef02f6b8a6c2f6
record_format Article
spelling doaj-86432aba430740b18fef02f6b8a6c2f62020-11-24T21:20:55ZengMDPI AGComputation2079-31972019-06-01723010.3390/computation7020030computation7020030Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication SystemsDimitra K. Manousou0Argyris N. Stassinakis1Emmanuel Syskakis2Hector E. Nistazakis3Spiros Gardelis4George S. Tombras5Faculty of Physics, National and Kapodistrian University of Athens, 15784 Athens, GreeceFaculty of Physics, National and Kapodistrian University of Athens, 15784 Athens, GreeceFaculty of Physics, National and Kapodistrian University of Athens, 15784 Athens, GreeceFaculty of Physics, National and Kapodistrian University of Athens, 15784 Athens, GreeceFaculty of Physics, National and Kapodistrian University of Athens, 15784 Athens, GreeceFaculty of Physics, National and Kapodistrian University of Athens, 15784 Athens, GreeceVisible Light Communication (VLC) systems use light-emitting diode (LED) technology to provide high-capacity optical links. The advantages they offer, such as the high data rate and the low installation and operational cost, have identified them as a significant solution for modern networks. However, such systems are vulnerable to various exogenous factors, with the background sunlight noise having the greatest impact. In order to reduce the negative influence of the background noise effect, optical filters can be used. In this work, for the first time, a low-cost optical vanadium dioxide (VO<sub>2</sub>) optical filter has been designed and experimentally implemented based on the requirements of typical and realistic VLC systems in order to significantly increase their performance by reducing the transmittance of background noise. The functionality of the specific filter is investigated by means of its bit error rate (BER) performance estimation, taking into account its experimentally measured characteristics. Numerous results are provided in order to prove the significant performance enhancement of the VLC systems which, as it is shown, reaches almost six orders of magnitude in some cases, using the specific experimental optical filter.https://www.mdpi.com/2079-3197/7/2/30bit error rateVLCexperimental optical filtereSSKVO<sub>2</sub> filter
collection DOAJ
language English
format Article
sources DOAJ
author Dimitra K. Manousou
Argyris N. Stassinakis
Emmanuel Syskakis
Hector E. Nistazakis
Spiros Gardelis
George S. Tombras
spellingShingle Dimitra K. Manousou
Argyris N. Stassinakis
Emmanuel Syskakis
Hector E. Nistazakis
Spiros Gardelis
George S. Tombras
Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication Systems
Computation
bit error rate
VLC
experimental optical filter
eSSK
VO<sub>2</sub> filter
author_facet Dimitra K. Manousou
Argyris N. Stassinakis
Emmanuel Syskakis
Hector E. Nistazakis
Spiros Gardelis
George S. Tombras
author_sort Dimitra K. Manousou
title Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication Systems
title_short Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication Systems
title_full Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication Systems
title_fullStr Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication Systems
title_full_unstemmed Experimental Implementation and Theoretical Investigation of a Vanadium Dioxide Optical Filter for Bit Error Rate Enhancement of Enhanced Space Shift Keying Visible Light Communication Systems
title_sort experimental implementation and theoretical investigation of a vanadium dioxide optical filter for bit error rate enhancement of enhanced space shift keying visible light communication systems
publisher MDPI AG
series Computation
issn 2079-3197
publishDate 2019-06-01
description Visible Light Communication (VLC) systems use light-emitting diode (LED) technology to provide high-capacity optical links. The advantages they offer, such as the high data rate and the low installation and operational cost, have identified them as a significant solution for modern networks. However, such systems are vulnerable to various exogenous factors, with the background sunlight noise having the greatest impact. In order to reduce the negative influence of the background noise effect, optical filters can be used. In this work, for the first time, a low-cost optical vanadium dioxide (VO<sub>2</sub>) optical filter has been designed and experimentally implemented based on the requirements of typical and realistic VLC systems in order to significantly increase their performance by reducing the transmittance of background noise. The functionality of the specific filter is investigated by means of its bit error rate (BER) performance estimation, taking into account its experimentally measured characteristics. Numerous results are provided in order to prove the significant performance enhancement of the VLC systems which, as it is shown, reaches almost six orders of magnitude in some cases, using the specific experimental optical filter.
topic bit error rate
VLC
experimental optical filter
eSSK
VO<sub>2</sub> filter
url https://www.mdpi.com/2079-3197/7/2/30
work_keys_str_mv AT dimitrakmanousou experimentalimplementationandtheoreticalinvestigationofavanadiumdioxideopticalfilterforbiterrorrateenhancementofenhancedspaceshiftkeyingvisiblelightcommunicationsystems
AT argyrisnstassinakis experimentalimplementationandtheoreticalinvestigationofavanadiumdioxideopticalfilterforbiterrorrateenhancementofenhancedspaceshiftkeyingvisiblelightcommunicationsystems
AT emmanuelsyskakis experimentalimplementationandtheoreticalinvestigationofavanadiumdioxideopticalfilterforbiterrorrateenhancementofenhancedspaceshiftkeyingvisiblelightcommunicationsystems
AT hectorenistazakis experimentalimplementationandtheoreticalinvestigationofavanadiumdioxideopticalfilterforbiterrorrateenhancementofenhancedspaceshiftkeyingvisiblelightcommunicationsystems
AT spirosgardelis experimentalimplementationandtheoreticalinvestigationofavanadiumdioxideopticalfilterforbiterrorrateenhancementofenhancedspaceshiftkeyingvisiblelightcommunicationsystems
AT georgestombras experimentalimplementationandtheoreticalinvestigationofavanadiumdioxideopticalfilterforbiterrorrateenhancementofenhancedspaceshiftkeyingvisiblelightcommunicationsystems
_version_ 1726002182988234752

Similar Items