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Autori principali: Xie, Xinyan, Wang, Xuesong, Lai, Xin, Wen, Yongheng, Yang, Fengrui, He, Haoyang, Zhang, Lai, Zhao, Dong
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.21271
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author Xie, Xinyan
Wang, Xuesong
Lai, Xin
Wen, Yongheng
Yang, Fengrui
He, Haoyang
Zhang, Lai
Zhao, Dong
author_facet Xie, Xinyan
Wang, Xuesong
Lai, Xin
Wen, Yongheng
Yang, Fengrui
He, Haoyang
Zhang, Lai
Zhao, Dong
contents Indoor visible light communication (VLC) is a promising sixth-generation (6G) technology, as its directional and sensitive optical signals are naturally suited for integrated sensing and communication (ISAC). However, current research mainly focuses on maximizing data rates and sensing accuracy, creating a conflict between high performance, high energy consumption, and user visual comfort. This paper proposes an adaptive integrated sensing, communication, and illumination (ISCI) framework that resolves this conflict by treating energy savings as a primary objective. The framework's mechanism first partitions the receiving plane using a geometric methodology, defining an activity area and a surrounding non-activity area to match distinct user requirements. User location, determined using non-line-of-sight (NLOS) sensing, then acts as a dynamic switch for the system's optimization objective. The system adaptively shifts between minimizing total transmit power while guaranteeing communication and illumination performance in the activity area and maximizing signal-to-noise ratio (SNR) uniformity in the non-activity area. Numerical results confirm that this adaptive ISCI approach achieves 53.59% energy savings over a non-adaptive system and improves SNR uniformity by 57.79%, while satisfying all illumination constraints and maintaining a mean localization error of 0.071 m.
format Preprint
id arxiv_https___arxiv_org_abs_2511_21271
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Adaptive Lighting Control in Visible Light Systems: An Integrated Sensing, Communication, and Illumination Framework
Xie, Xinyan
Wang, Xuesong
Lai, Xin
Wen, Yongheng
Yang, Fengrui
He, Haoyang
Zhang, Lai
Zhao, Dong
Systems and Control
Information Theory
Indoor visible light communication (VLC) is a promising sixth-generation (6G) technology, as its directional and sensitive optical signals are naturally suited for integrated sensing and communication (ISAC). However, current research mainly focuses on maximizing data rates and sensing accuracy, creating a conflict between high performance, high energy consumption, and user visual comfort. This paper proposes an adaptive integrated sensing, communication, and illumination (ISCI) framework that resolves this conflict by treating energy savings as a primary objective. The framework's mechanism first partitions the receiving plane using a geometric methodology, defining an activity area and a surrounding non-activity area to match distinct user requirements. User location, determined using non-line-of-sight (NLOS) sensing, then acts as a dynamic switch for the system's optimization objective. The system adaptively shifts between minimizing total transmit power while guaranteeing communication and illumination performance in the activity area and maximizing signal-to-noise ratio (SNR) uniformity in the non-activity area. Numerical results confirm that this adaptive ISCI approach achieves 53.59% energy savings over a non-adaptive system and improves SNR uniformity by 57.79%, while satisfying all illumination constraints and maintaining a mean localization error of 0.071 m.
title Adaptive Lighting Control in Visible Light Systems: An Integrated Sensing, Communication, and Illumination Framework
topic Systems and Control
Information Theory
url https://arxiv.org/abs/2511.21271