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提高神经网络对细颗粒物个体空气质量指数污染水平的预测准确性。

Improving Neural Network Prediction Accuracy for PM Individual Air Quality Index Pollution Levels.

作者信息

Feng Qi, Wu Shengjun, Du Yun, Xue Huaiping, Xiao Fei, Ban Xuan, Li Xiaodong

机构信息

Key Laboratory for Environment and Disaster Monitoring and Evaluation, Institute of Geodesy and Geophysics, Chinese Academy of Sciences, Wuhan, China .

Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences, Chongqing, China .

出版信息

Environ Eng Sci. 2013 Dec 1;30(12):725-732. doi: 10.1089/ees.2013.0164.

Abstract

Fugitive dust deriving from construction sites is a serious local source of particulate matter (PM) that leads to air pollution in cities undergoing rapid urbanization in China. In spite of this fact, no study has yet been published relating to prediction of high levels of PM with diameters <10 μm (PM) as adjudicated by the Individual Air Quality Index (IAQI) on fugitive dust from nearby construction sites. To combat this problem, the Construction Influence Index () is introduced in this article to improve forecasting models based on three neural network models (multilayer perceptron, Elman, and support vector machine) in predicting daily PM IAQI one day in advance. To obtain acceptable forecasting accuracy, measured time series data were decomposed into wavelet representations and wavelet coefficients were predicted. Effectiveness of these forecasters were tested using a time series recorded between January 1, 2005, and December 31, 2011, at six monitoring stations situated within the urban area of the city of Wuhan, China. Experimental trials showed that the improved models provided low root mean square error values and mean absolute error values in comparison to the original models. In addition, these improved models resulted in higher values of coefficients of determination and (the accuracy rate of high PM IAQI caused by nearby construction activity) compared to the original models when predicting high PM IAQI levels attributable to fugitive dust from nearby construction sites.

摘要

建筑工地产生的扬尘是颗粒物(PM)的一个严重的本地来源,会导致中国快速城市化的城市空气污染。尽管如此,尚未有关于根据个体空气质量指数(IAQI)判定的附近建筑工地扬尘中直径<10μm的高浓度PM预测的研究发表。为了解决这个问题,本文引入建筑影响指数(),以改进基于三种神经网络模型(多层感知器、埃尔曼网络和支持向量机)提前一天预测每日PM IAQI的预测模型。为了获得可接受的预测精度,将实测时间序列数据分解为小波表示形式,并对小波系数进行预测。使用2005年1月1日至2011年12月31日期间在中国武汉市市区六个监测站记录的时间序列对这些预测器的有效性进行了测试。实验表明,与原始模型相比,改进后的模型具有较低的均方根误差值和平均绝对误差值。此外,在预测附近建筑工地扬尘导致的高PM IAQI水平时,与原始模型相比,这些改进后的模型在决定系数和(附近建筑活动导致的高PM IAQI准确率)方面具有更高的值。

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