Exploring Universal Filtered Multi Carrier Waveform for Last Meter Connectivity in 6G: A Street-Lighting-Driven Approach with Enhanced Simulator for IoT Application Dimensioning

Future Internet Pub Date : 2024-03-26 DOI:10.3390/fi16040112

Véronique Georlette, Anne-Carole Honfoga, M. Dossou, V. Moeyaert

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Abstract

In the dynamic landscape of 6G and smart cities, visible light communication (VLC) assumes critical significance for Internet of Things (IoT) applications spanning diverse sectors. The escalating demand for bandwidth and data underscores the need for innovative solutions, positioning VLC as a complementary technology within the electromagnetic spectrum. This paper focuses on the relevance of VLC in the 6G paradigm, shedding light on its applicability across smart cities and industries. The paper highlights the growing efficiency of lighting LEDs in infrastructure, facilitating the seamless integration of VLC. The study then emphasizes VLC’s robustness in outdoor settings, demonstrating effective communication up to 10 m. This resilience positions VLC as a key player in addressing the very last meter of wireless communication, offering a seamless solution for IoT connectivity. By introducing a freely available open-source simulator combined with an alternative waveform, UFMC, the study empowers researchers to dimension applications effectively, showcasing VLC’s potential to improve wireless communication in the evolving landscape of 6G and smart cities.

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探索用于 6G 最后一米连接的通用滤波多载波波形：一种以路灯为驱动力的方法，带有用于物联网应用尺寸确定的增强型模拟器

在 6G 和智慧城市的动态环境中，可见光通信 (VLC) 对于横跨不同领域的物联网 (IoT) 应用具有至关重要的意义。对带宽和数据不断增长的需求凸显了对创新解决方案的需求，并将可见光通信定位为电磁频谱内的一项补充技术。本文重点探讨了 VLC 在 6G 范式中的相关性，阐明了它在智慧城市和各行业中的适用性。本文强调了 LED 照明在基础设施中日益提高的效率，这有利于 VLC 的无缝集成。这项研究随后强调了 VLC 在室外环境中的稳定性，展示了长达 10 米的有效通信。这种弹性使 VLC 成为解决无线通信最后一米问题的关键角色，为物联网连接提供了无缝解决方案。通过引入免费开源模拟器和替代波形 UFMC，该研究使研究人员能够有效地维度应用，展示了 VLC 在不断发展的 6G 和智能城市中改善无线通信的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Future Internet

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