An Innovative Modelling Approach Based on Building Physics and Machine Learning for the Prediction of Indoor Thermal Comfort in an Office Building

Giovanni Tardioli, Ricardo Filho, P. Bernaud, D. Ntimos
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引用次数: 10

Abstract

In this paper, an innovative hybrid modelling technique based on machine learning and building dynamic simulation is presented for the prediction of indoor thermal comfort feedback from occupants in an office building in Le Bourget-du-Lac, Chambéry, France. The office was equipped with Internet of Things (IoT) environmental sensors. A calibrated building energy model was created for the building using optimisation tools. Thermal comfort was collected using a portable device. A machine learning (ML) model was trained using collected feedback, environmental data from IoT devices and synthetic datasets (virtual sensors) extracted from a physics-based model. A calibrated energy model was used in co-simulation with the predictive method to estimate comfort levels for the building. The results show the ability of the method to improve the prediction of occupant feedback when compared to traditional thermal comfort approaches of about 25%, the importance of information extracted from the physics-based model and the possibility of leveraging scenario evaluation capabilities of the dynamic simulation model for control purposes.
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基于建筑物理和机器学习的办公建筑室内热舒适预测创新建模方法
本文提出了一种基于机器学习和建筑动态模拟的创新混合建模技术,用于预测法国chamb ry Le Bourget-du-Lac办公大楼的室内热舒适反馈。该办公室配备了物联网(IoT)环境传感器。使用优化工具为建筑创建了校准的建筑能源模型。热舒适性采集采用便携式设备。使用收集的反馈、来自物联网设备的环境数据和从基于物理的模型中提取的合成数据集(虚拟传感器)来训练机器学习(ML)模型。采用校正后的能量模型与预测方法进行联合模拟,以估计建筑物的舒适度。结果表明,与传统热舒适方法相比,该方法对乘员反馈的预测能力提高了约25%,从基于物理的模型中提取信息的重要性,以及利用动态仿真模型的场景评估能力进行控制的可能性。
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