PREDICTING VERTICAL DAYLIGHT ILLUMINANCE DATA FROM MEASURED SOLAR IRRADIANCE: A MACHINE LEARNING-BASED LUMINOUS EFFICACY APPROACH

IF 2.1 4区工程技术 Q3 ENERGY & FUELS Journal of Solar Energy Engineering-transactions of The Asme Pub Date : 2022-10-07 DOI:10.1115/1.4055915

D. Li, E. Aghimien

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引用次数: 1

Abstract

Daylight data are required for energy-efficient building designs. However, daylight is scarcely measured, making the luminous efficacy model an alternative. This paper presents a method for modeling vertical luminous efficacy (Kvg) using measured data from measuring stations in Hong Kong. The artificial neural network (ANN), support vector machines (SVM) and empirical correlations were proposed for modeling Kvg. Machine learning (ML) models like ANN and SVM were used because they offer more accurate daylight predictions and ease in explaining complex relationships between atmospheric variables. Also, ML was explored since it has not been used in prior vertical luminous efficacy studies. Sensitivity analysis was also carried out to determine the relative importance of input variables used for developing the proposed models. Findings show that scattering angle and diffuse fraction are crucial variables in vertical luminous efficacy modeling. Furthermore, the analysis showed that all proposed models could offer vertical daylight predictions at a relative root mean square error of less than 20%. Finally, it was observed that the ANN models outperformed the SVM and empirical models.

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从测量的太阳辐照度预测垂直日光照度数据:基于机器学习的光效方法

节能建筑设计需要日光数据。然而，日光几乎没有测量，这使得发光效率模型成为一种替代方案。本文提出了一种利用香港测量站的测量数据建立垂直发光效率（Kvg）模型的方法。提出了人工神经网络（ANN）、支持向量机（SVM）和经验相关性对Kvg进行建模。之所以使用ANN和SVM等机器学习（ML）模型，是因为它们提供了更准确的日光预测，并且易于解释大气变量之间的复杂关系。此外，由于ML尚未用于先前的垂直发光功效研究，因此对其进行了探索。还进行了敏感性分析，以确定用于开发所提出的模型的输入变量的相对重要性。研究结果表明，散射角和散射分数是垂直发光效率建模的关键变量。此外，分析表明，所有提出的模型都可以提供相对均方根误差小于20%的垂直日光预测。最后，观察到ANN模型优于SVM和经验模型。

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来源期刊

Journal of Solar Energy Engineering-transactions of The Asme 工程技术-工程：机械

CiteScore

5.00

自引率

26.10%

发文量

审稿时长

6.0 months

期刊介绍： The Journal of Solar Energy Engineering - Including Wind Energy and Building Energy Conservation - publishes research papers that contain original work of permanent interest in all areas of solar energy and energy conservation, as well as discussions of policy and regulatory issues that affect renewable energy technologies and their implementation. Papers that do not include original work, but nonetheless present quality analysis or incremental improvements to past work may be published as Technical Briefs. Review papers are accepted but should be discussed with the Editor prior to submission. The Journal also publishes a section called Solar Scenery that features photographs or graphical displays of significant new installations or research facilities.