基于AI的班级环境能量优化

K. Yu, Emanuel Jaimes, Chi-Chuan Wang
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引用次数: 2

摘要

本研究探讨了校园教室最佳室内环境的性能。控制系统能够调节和平衡照明、热舒适、空气质量和节能的需求。通过与物联网相关的机器学习和照明算法、无线通信和自适应控制相结合,可以实现最佳的节能和环境控制。此外,通过使用视频图像检测来分析教室中的人员数量和分布,可以更好地优化能源。本研究采用了与大多数文献不同的分体式空调系统。大约进行了30次测试,占用时间从1到2小时不等,每小时为50分钟。课堂类型分为正常授课和考试两种,表现出完全不同的特点。提出的人工智能代理不仅适用于中小型室内空间,也适用于住宅。为了调节室内照度,安装了无线和可调照度LED。在照明算法的控制下,教室各个区域的照度可以根据人员分布进行优化。试验结果表明,在保持热舒适和空气质量的前提下,与固定设定点控制25度相比,平均节能19%,平均CO2浓度降低21.3%。与设定点温度26度相比,平均节能15%,平均减少二氧化碳排放12.9%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AI Based Energy Optimization in Association With Class Environment
This study investigates the performance of an optimal indoor environment in a campus classroom. The control system is able to regulate and balance the needs for illuminance, thermal comfort, air quality, and energy saving. By incorporating with Machine Learning and illumination algorithm associated with Internet of Things, wireless communication and adapted control, optimal energy saving and environment control can be achieved. Additionally, by using Video Image Detection to analyze the number of occupants and distribution in the classroom offers better energy optimization. In this study, the split-type air conditioning system has been used which is different from that in most literatures. About 30 tests are conducted and the occupant numbers range from 1 to 2 hours and each hour is 50 minutes. The class types include normal lecture and examination which shows completely different characteristics. The proposed AI agent contains the benefits not only for small or medium indoor space, but also for residences. In order to adjust the indoor illuminance, wireless and adjustable illuminance level LED were installed. Under the control of the illumination algorithm, the illuminance of each area of the classroom can be optimized according to the occupant distribution. The test results indicate that, by maintaining thermal comfort and air quality, when comparing with fixed setting point control 25 degrees, the average energy saving is 19%, and the average CO2 concentration is decreased by 21.3%. When comparing with setting point temperature of 26 degrees, the average energy saving is 15% the average CO2 is decreased by 12.9%.
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