AI-Driven Enhancements for Handover in Visible Light Communication Systems

Higor Camporez; Marcelo Segatto; Jair Silva; Jan Kleine Deters; Heinrich Wörtche; Helder Rocha; Wesley Da Silva Costa

doi:10.1109/jlt.2024.3430188

AI-Driven Enhancements for Handover in Visible Light Communication Systems

Higor Camporez, Marcelo Segatto, Jair Silva, Jan Kleine Deters, Heinrich Wörtche, Helder Rocha, Wesley Da Silva Costa

Sensors and Smart Systems

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

A modified genetic algorithm (MGA) optimization procedure, alongside time series machine learning (ML) classifiers, is proposed to minimize handovers in a digital twin-based visible light communication (VLC) system. Frequent handovers have a direct impact on the overall performance of the VLC system due to the inherent connection downtime of a handover process. The handover scheme proposed in this article considers the receiver trajectory information to minimize handovers, maintaining the system performance below the forward error correction limit. Simulation results indicate that the proposed scheme outperforms a power-based handover scheme, achieving handover reductions of 42.47%. Therefore, the MGA combined to the ML models approach is an effective means of minimizing handovers, as well as improving overall VLC system performance.

Original language	English
Pages (from-to)	8191
Number of pages	8202
Journal	IEEE/OAS Journal of Lightwave Technology
Volume	42
Issue number	23
DOIs	https://doi.org/10.1109/jlt.2024.3430188
Publication status	Published - 1 Dec 2024

Keywords

handover
light-emitting diodes
light fidelity
optical transmitters
optimization
trajectory
visible light communication
vlc

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10.1109/jlt.2024.3430188

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title = "AI-Driven Enhancements for Handover in Visible Light Communication Systems",

abstract = "A modified genetic algorithm (MGA) optimization procedure, alongside time series machine learning (ML) classifiers, is proposed to minimize handovers in a digital twin-based visible light communication (VLC) system. Frequent handovers have a direct impact on the overall performance of the VLC system due to the inherent connection downtime of a handover process. The handover scheme proposed in this article considers the receiver trajectory information to minimize handovers, maintaining the system performance below the forward error correction limit. Simulation results indicate that the proposed scheme outperforms a power-based handover scheme, achieving handover reductions of 42.47%. Therefore, the MGA combined to the ML models approach is an effective means of minimizing handovers, as well as improving overall VLC system performance.",

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AU - Camporez, Higor

AU - Segatto, Marcelo

AU - Silva, Jair

AU - Deters, Jan Kleine

AU - Wörtche, Heinrich

AU - Rocha, Helder

AU - Da Silva Costa, Wesley

PY - 2024/12/1

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N2 - A modified genetic algorithm (MGA) optimization procedure, alongside time series machine learning (ML) classifiers, is proposed to minimize handovers in a digital twin-based visible light communication (VLC) system. Frequent handovers have a direct impact on the overall performance of the VLC system due to the inherent connection downtime of a handover process. The handover scheme proposed in this article considers the receiver trajectory information to minimize handovers, maintaining the system performance below the forward error correction limit. Simulation results indicate that the proposed scheme outperforms a power-based handover scheme, achieving handover reductions of 42.47%. Therefore, the MGA combined to the ML models approach is an effective means of minimizing handovers, as well as improving overall VLC system performance.

AB - A modified genetic algorithm (MGA) optimization procedure, alongside time series machine learning (ML) classifiers, is proposed to minimize handovers in a digital twin-based visible light communication (VLC) system. Frequent handovers have a direct impact on the overall performance of the VLC system due to the inherent connection downtime of a handover process. The handover scheme proposed in this article considers the receiver trajectory information to minimize handovers, maintaining the system performance below the forward error correction limit. Simulation results indicate that the proposed scheme outperforms a power-based handover scheme, achieving handover reductions of 42.47%. Therefore, the MGA combined to the ML models approach is an effective means of minimizing handovers, as well as improving overall VLC system performance.

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KW - light-emitting diodes

KW - light fidelity

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KW - optimization

KW - trajectory

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KW - vlc

KW - lichtgevende dioden

KW - connectiviteitstoepassingen

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JO - IEEE/OAS Journal of Lightwave Technology

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AI-Driven Enhancements for Handover in Visible Light Communication Systems

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Keywords

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