使用卷积LSTM网络对马德里市大流行和非大流行情景中二氧化氮预测的比较

Ditsuhi Iskandaryan, Francisco Ramos, S. Trilles
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引用次数: 3

摘要

传统上,机器学习技术与现有的方法和能力相结合,结合地理空间维度,可以更准确地对空气质量进行预测分析。然而,空气污染受到许多外部因素的影响,其中一个因素是最近为遏制COVID-19的无情发展而实施的限制措施。这些空气质量水平的突然变化会对目前的预报模式产生负面影响。这项工作比较了在相同条件下大流行期间和非大流行期间的空气污染预测。利用马德里空气质量和气象站的数据,应用ConvLSTM算法预测二氧化氮浓度。该模型应用于大流行(2020年1月至6月)和非大流行(2019年1月至6月)两种情景,每种情景都有基于时间粒度(1小时、12小时、24小时和48小时)和特征组合的子情景。以均方根误差(Root Mean Square Error)作为估计度量,结果表明该方法优于参考模型,特征选择技术显著提高了整体精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of Nitrogen Dioxide Predictions During a Pandemic and Non-pandemic Scenario in the City of Madrid using a Convolutional LSTM Network
Traditionally, machine learning technologies with the methods and capabilities available, combined with a geospatial dimension, can perform predictive analyzes of air quality with greater accuracy. However, air pollution is influenced by many external factors, one of which has recently been caused by the restrictions applied to curb the relentless advance of COVID-19. These sudden changes in air quality levels can negatively influence current forecasting models. This work compares air pollution forecasts during a pandemic and non-pandemic period under the same conditions. The ConvLSTM algorithm was applied to predict the concentration of nitrogen dioxide using data from the air quality and meteorological stations in Madrid. The proposed model was applied for two scenarios: pandemic (January–June 2020) and non-pandemic (January–June 2019), each with sub-scenarios based on time granularity (1-h, 12-h, 24-h and 48-h) and combination of features. The Root Mean Square Error was taken as the estimation metric, and the results showed that the proposed method outperformed a reference model, and the feature selection technique significantly improved the overall accuracy.
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