Design of a Smart Lighting System Based on Sensor Integration and Automation

Linfeng Jia
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Abstract

As a crucial application of modern technology, smart lighting systems are transforming our interaction with the living environment. The key lies in utilizing advanced sensor technology to maximize lighting efficiency and conserve energy. This paper focuses on designing a sensor-based lighting control system that integrates Passive Infrared and light intensity sensors for the automated management of environmental lighting. Our research has extensively explored the integrated application of PIR and light-intensity sensors. The design aims to automatically adjust indoor lighting based on environmental light conditions and the presence or absence of occupants to enhance comfort and energy efficiency. The sensor fusion algorithm was optimized through a series of experiments to improve detection accuracy and effective energy utilization. Based on the design analysis, the system can significantly enhance energy savings by reducing unnecessary lighting without compromising occupant comfort. The system’s design also considers rooms of varying sizes and layouts, demonstrating good adaptability and versatility. The significance of this research lies in providing innovative solutions for the smart lighting domain. By enhancing the intelligence and responsiveness of lighting systems in home and commercial environments, our design offers a more intuitive and energy-efficient lighting experience. It paves the way for future developments and innovations in lighting systems. This work highlights the immense potential of sensor-based systems in creating interactive and adaptive environments suitable for diverse settings such as homes, corridors, and underground garages.
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基于传感器集成和自动化的智能照明系统设计
作为现代技术的一项重要应用,智能照明系统正在改变我们与生活环境的互动。关键在于利用先进的传感器技术最大限度地提高照明效率和节约能源。本文的重点是设计一种基于传感器的照明控制系统,该系统集成了被动红外传感器和光强传感器,用于环境照明的自动化管理。我们的研究广泛探索了被动红外传感器和光强传感器的综合应用。该设计旨在根据环境光线条件和居住者的存在与否自动调节室内照明,以提高舒适度和能源效率。通过一系列实验,对传感器融合算法进行了优化,以提高检测精度和有效的能源利用率。根据设计分析,该系统可以在不影响居住舒适度的前提下,减少不必要的照明,从而显著提高节能效果。该系统的设计还考虑到了不同大小和布局的房间,表现出良好的适应性和通用性。这项研究的意义在于为智能照明领域提供创新解决方案。通过增强家庭和商业环境中照明系统的智能性和响应能力,我们的设计提供了更加直观和节能的照明体验。它为照明系统的未来发展和创新铺平了道路。这项工作凸显了基于传感器的系统在创造适合家庭、走廊和地下车库等不同环境的交互式自适应环境方面的巨大潜力。
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