Toward AI-Enhanced VLC Systems for Industrial Applications

Wesley Da Silva Costa; Higor Camporez; Malte Hinrichs; Helder Rocha; Maria Pontes; Marcelo Segatto; Anagnostis Paraskevopoulos; Volker Jungnickel; Ronald Freund; J.A. Lima Silva

doi:10.1109/JLT.2022.3231791

Toward AI-Enhanced VLC Systems for Industrial Applications

Wesley Da Silva Costa, Higor Camporez, Malte Hinrichs, Helder Rocha, Maria Pontes, Marcelo Segatto, Anagnostis Paraskevopoulos, Volker Jungnickel, Ronald Freund, J.A. Lima Silva

Sensors and Smart Systems

Federal University of Espírito Santo - Department of Electrical Engineering
Federal University of Espírito (UFES), Department of Electrical Engineering, LabTeL - Telecommunications Laboratory
Heinrich-Hertz-Institut, Fraunhofer-Institut für Nachrichtentechnik

Onderzoeksoutput: Article › Academic › peer review

Samenvatting

In this paper, artificial intelligence tools are implemented in order to predict trajectory positions, as well as channel performance of an optical wireless communications link. Case studies for industrial scenarios are considered to this aim. In a first stage, system parameters are optimized using a hybrid multi-objective optimization (HMO) procedure based on the grey wolf optimizer and the non-sorting genetic algorithm III with the goal of simultaneously maximizing power and spectral efficiency. In a second stage, we demonstrate that a long short-term memory neural network (LSTM) is able to predict positions, as well as channel gain. In this way, the VLC links can be configured with the optimal parameters provided by the HMO. The success of the proposed LSTM architectures was validated by training and test root-mean square error evaluations below 1%.

Originele taal-2	English
Artikelnummer	9998061
Pagina's (van-tot)	1064-1076
Aantal pagina's	13
Tijdschrift	IEEE/OAS Journal of Lightwave Technology
Volume	41
Nummer van het tijdschrift	4
Vroegere onlinedatum	23 dec. 2022
DOI's	https://doi.org/10.1109/JLT.2022.3231791
Status	Published - 15 feb. 2023

Keywords

lichtgevende diodes
niet-lineaire optica
optische filters
optische sensoren
optische zenders
optimalisatie
zichtbare lichtcommunicatie
kunstmatige intelligentie

Research Focus Areas Hanze University of Applied Sciences

Healthy Ageing

Research Focus Areas Research Centre or Centre of Expertise

Artificial Intelligence
Cyberfysical systems

Publinova thema's

ICT & Media
Gezondheid
Techniek

Toegang tot document

10.1109/JLT.2022.3231791

https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=9998061

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https://ieeexplore.ieee.org/document/9998061/

Citeer dit

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title = "Toward AI-Enhanced VLC Systems for Industrial Applications",

abstract = "In this paper, artificial intelligence tools are implemented in order to predict trajectory positions, as well as channel performance of an optical wireless communications link. Case studies for industrial scenarios are considered to this aim. In a first stage, system parameters are optimized using a hybrid multi-objective optimization (HMO) procedure based on the grey wolf optimizer and the non-sorting genetic algorithm III with the goal of simultaneously maximizing power and spectral efficiency. In a second stage, we demonstrate that a long short-term memory neural network (LSTM) is able to predict positions, as well as channel gain. In this way, the VLC links can be configured with the optimal parameters provided by the HMO. The success of the proposed LSTM architectures was validated by training and test root-mean square error evaluations below 1\%.",

keywords = "light emitting diodes, nonlinear optics, optical filters, optical sensors, optical transmitters, optimization, visible light communication, artificial intelligence, lichtgevende diodes, niet-lineaire optica, optische filters, optische sensoren, optische zenders, optimalisatie, zichtbare lichtcommunicatie, kunstmatige intelligentie",

author = "\{Da Silva Costa\}, Wesley and Higor Camporez and Malte Hinrichs and Helder Rocha and Maria Pontes and Marcelo Segatto and Anagnostis Paraskevopoulos and Volker Jungnickel and Ronald Freund and \{Lima Silva\}, J.A.",

year = "2023",

month = feb,

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doi = "10.1109/JLT.2022.3231791",

language = "English",

volume = "41",

pages = "1064--1076",

journal = "IEEE/OAS Journal of Lightwave Technology",

issn = "1558-2213",

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TY - JOUR

T1 - Toward AI-Enhanced VLC Systems for Industrial Applications

AU - Da Silva Costa, Wesley

AU - Camporez, Higor

AU - Hinrichs, Malte

AU - Rocha, Helder

AU - Pontes, Maria

AU - Segatto, Marcelo

AU - Paraskevopoulos, Anagnostis

AU - Jungnickel, Volker

AU - Freund, Ronald

AU - Lima Silva, J.A.

PY - 2023/2/15

Y1 - 2023/2/15

N2 - In this paper, artificial intelligence tools are implemented in order to predict trajectory positions, as well as channel performance of an optical wireless communications link. Case studies for industrial scenarios are considered to this aim. In a first stage, system parameters are optimized using a hybrid multi-objective optimization (HMO) procedure based on the grey wolf optimizer and the non-sorting genetic algorithm III with the goal of simultaneously maximizing power and spectral efficiency. In a second stage, we demonstrate that a long short-term memory neural network (LSTM) is able to predict positions, as well as channel gain. In this way, the VLC links can be configured with the optimal parameters provided by the HMO. The success of the proposed LSTM architectures was validated by training and test root-mean square error evaluations below 1%.

AB - In this paper, artificial intelligence tools are implemented in order to predict trajectory positions, as well as channel performance of an optical wireless communications link. Case studies for industrial scenarios are considered to this aim. In a first stage, system parameters are optimized using a hybrid multi-objective optimization (HMO) procedure based on the grey wolf optimizer and the non-sorting genetic algorithm III with the goal of simultaneously maximizing power and spectral efficiency. In a second stage, we demonstrate that a long short-term memory neural network (LSTM) is able to predict positions, as well as channel gain. In this way, the VLC links can be configured with the optimal parameters provided by the HMO. The success of the proposed LSTM architectures was validated by training and test root-mean square error evaluations below 1%.

KW - light emitting diodes

KW - nonlinear optics

KW - optical filters

KW - optical sensors

KW - optical transmitters

KW - optimization

KW - visible light communication

KW - artificial intelligence

KW - lichtgevende diodes

KW - niet-lineaire optica

KW - optische filters

KW - optische sensoren

KW - optische zenders

KW - optimalisatie

KW - zichtbare lichtcommunicatie

KW - kunstmatige intelligentie

UR - https://ieeexplore.ieee.org/document/9998061/

U2 - 10.1109/JLT.2022.3231791

DO - 10.1109/JLT.2022.3231791

M3 - Article

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EP - 1076

JO - IEEE/OAS Journal of Lightwave Technology

JF - IEEE/OAS Journal of Lightwave Technology

IS - 4

M1 - 9998061

ER -

Toward AI-Enhanced VLC Systems for Industrial Applications

Samenvatting

Keywords

Research Focus Areas Hanze University of Applied Sciences

Research Focus Areas Research Centre or Centre of Expertise

Publinova thema's

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