Experimental Study on Automated Controller of Street Light Management System using IoT

International Journal of Advanced Research in Science, Communication and Technology Pub Date : 2024-05-13 DOI:10.48175/ijarsct-18216

Kalaimathi D, Mohan N, Jayavel M, Nakeswaran S, Sivaganaeshkumar C, Thirumeniraj

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Abstract

In order to ensure public safety and support nighttime activities, street lighting is crucial to the urban landscape, and this study starts by contextualizing its importance. It then goes on to analyze the shortcomings of the current street lighting systems, which are typified by their static control methods and poor environmental response.These shortcomings underscore the urgent need for a paradigm shift towards more intelligent and adaptive solutions. The core proposition of this project lies in the design and implementation of an advanced street light management system empowered by IoT technology. At its heart, the system comprises a sophisticated network of interconnected devices, including sensors, actuators, and a central control unit. These components collaborate synergistically to capture, analyze, and act upon real-time data gleaned from the surrounding environment. Through the application of cutting-edge data analytics and machine learning algorithms, the system autonomously adjusts lighting levels in accordance with fluctuating parameters such as ambient light levels, traffic density, weather conditions, and pedestrian activity. By dynamically optimizing energy usage while ensuring adequate illumination, the system not only enhances operational efficiency but also contributes to cost reduction and environmental sustainability. Moreover, the proposed system incorporates proactive maintenance features, enabling early fault detection and remote diagnostics. This capability minimizes downtime and enhances system reliability, thereby mitigating the operational challenges associated with traditional street lighting infrastructure. The project further explores the conceptual framework of IoT, elucidating its transformative potential in revolutionizing urban infrastructure management. By seamlessly integrating physical devices with digital intelligence, IoT facilitates the creation of interconnected ecosystems wherein data-driven decision-making and automation converge to drive unprecedented efficiency and innovation

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使用物联网的路灯管理系统自动控制器实验研究

为了确保公共安全和支持夜间活动，街道照明对城市景观至关重要，本研究首先介绍了街道照明的重要性。这些缺点突出表明，迫切需要转变模式，采用更加智能和适应性更强的解决方案。本项目的核心主张在于设计和实施一个由物联网技术赋能的先进路灯管理系统。该系统的核心是一个由传感器、执行器和中央控制单元等互联设备组成的复杂网络。这些组件协同合作，对从周围环境中收集到的实时数据进行捕捉、分析并采取行动。通过应用尖端的数据分析和机器学习算法，该系统可根据环境光照度、交通密度、天气条件和行人活动等波动参数，自主调节照明水平。通过动态优化能源使用，同时确保充足的照明，该系统不仅提高了运行效率，还有助于降低成本和环境的可持续发展。此外，拟议的系统还具有主动维护功能，可实现早期故障检测和远程诊断。这种功能最大限度地减少了停机时间，提高了系统可靠性，从而减轻了与传统街道照明基础设施相关的运营挑战。该项目进一步探索了物联网的概念框架，阐明了物联网在彻底改变城市基础设施管理方面的变革潜力。通过将物理设备与数字智能无缝集成，物联网促进了互联生态系统的创建，其中数据驱动的决策和自动化融合在一起，推动了前所未有的效率和创新。

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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International Journal of Advanced Research in Science, Communication and Technology

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