Towards Sustainable Cities: Utilizing Computer Vision and AI for Efficient Public Lighting and Energy Management

IF 2.1 Q3 ENVIRONMENTAL SCIENCES Urban science (Basel, Switzerland) Pub Date : 2023-09-06 DOI:10.3390/urbansci7030094

A. S. Vanin, P. Belan

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Abstract

This study showcases the optimization of public lighting systems using computer vision with an emphasis on the YOLO algorithm for pedestrian detection, aiming to reduce energy expenses. In a time when the demand for electricity is escalating due to factors like taxes and urban expansion, it is imperative to explore strategies to cut costs. One pivotal area is public lighting management. Presently, governments are transitioning from sodium vapor lighting to LED lamps, which already contributes to decreasing consumption. In this scenario, computer vision systems, particularly using YOLO, have the potential to further reduce consumption by adjusting the power of LED lamps based on pedestrian traffic. Additionally, this paper employs fuzzy logic to calculate lamp power based on detected pedestrians and ambient lighting, ensuring compliance with the NBR 5101:2018 standard. Tests with public surveillance camera images and simulations validated the proposal. Upon implementing this project in practice, a 45% reduction in public lighting consumption was observed compared to conventional LED lighting.

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迈向可持续城市：利用计算机视觉和人工智能实现高效公共照明和能源管理

这项研究展示了使用计算机视觉优化公共照明系统，重点是用于行人检测的YOLO算法，旨在降低能源成本。在电力需求因税收和城市扩张等因素而不断升级的时代，探索削减成本的策略势在必行。一个关键领域是公共照明管理。目前，各国政府正在从钠蒸汽照明过渡到LED灯，这已经有助于降低消费。在这种情况下，计算机视觉系统，特别是使用YOLO，有可能通过根据行人流量调整LED灯的功率来进一步降低功耗。此外，本文采用模糊逻辑根据检测到的行人和环境照明来计算灯功率，确保符合NBR 5101:2018标准。对公共监控摄像机图像的测试和模拟验证了该提议。在实践中实施该项目时，与传统LED照明相比，公共照明消耗减少了45%。

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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