Smart Room Lighting System for Energy Efficiency in Indoor Environment

International Journal of Artificial Intelligence & Robotics (IJAIR) Pub Date : 2022-11-30 DOI:10.25139/ijair.v4i2.5266

Rafika Rizky Ramadhani, Mike Yuliana, Aries Pratiarso

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Abstract

The building sector absorbs 40% of global energy sources. Energy demand in the building sector is dominated by around 60 – 70% electricity, mainly used for air conditioning, water pumping machines, and lighting. On average, artificial lighting can consume 37% of the total electrical energy needs. Meanwhile, sunlight enters the room through the morning window from noon until the afternoon. Using unnecessary or excessive room lighting when there is a natural light source in the room consumes a relatively large total energy requirement of the building. There is a need for a smart lighting system specifically for indoors for efficient energy management and a lighting control system integrated with IoT, which utilizes the intensity of natural light in a room. In this paper, we proposed that the Smart Room Lighting System uses the fuzzy logic method based on ESP32 to control the lighting in the room to save electricity usage for a room lamp. The result of the tool's design, it can control the light starting from bright, dim, and lights go out. The results obtained by the Smart Room Lighting System can reduce power consumption by up to 93% and energy by up to 70%.

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面向室内环境节能的智能室内照明系统

建筑行业吸收了全球40%的能源。建筑行业的能源需求约占60 - 70%，主要用于空调、抽水机和照明。平均而言，人工照明可以消耗总电能需求的37%。同时，阳光从中午到下午通过早晨的窗户进入房间。当室内有自然光源时，使用不必要的或过多的室内照明会消耗建筑物相对较大的总能源需求。需要一个专门用于室内的智能照明系统，以实现高效的能源管理，以及一个与物联网集成的照明控制系统，该系统利用房间内的自然光强度。在本文中，我们提出了智能房间照明系统采用基于ESP32的模糊逻辑方法来控制房间内的照明，以节省房间灯的用电量。该工具的设计结果是，它可以控制灯光从亮、暗、灭。智能房间照明系统的结果可以减少高达93%的电力消耗和高达70%的能源消耗。

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 Artificial Intelligence & Robotics (IJAIR)

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