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基于地理加权回归克里金的中国PM_(2.5)浓度空间制图方法 被引量:3

Spatial Mapping of PM_(2.5) Concentrationin China with Geographically Weighted Regression Kriging Model
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摘要 空气细颗粒物健康暴露风险等研究需要准确的PM_(2.5)浓度时空分布信息作为健康评估的重要输入。然而,由于监测台站稀疏分布,通常需要融合遥感等辅助信息,通过空间制图模型得到PM_(2.5)浓度的分布状况。如何在估计模型中将PM_(2.5)浓度的空间分布特征融入制图模型将是提高PM_(2.5)制图精度的关键。发展了一种融合地理加权回归和克里金插值方法的混合模型:地理加权回归克里金(Geographically Weighted Regression-Kriging,GWRK),地理加权回归模型考虑PM_(2.5)浓度分布的空间异质性,克里金模型对回归后的残差中存在的空间自相关性进行建模。基于该方法,利用中国空气质量监测站数据,采用遥感、模式模拟数据作为辅助信息,对2017年中国逐月的PM_(2.5)浓度分布进行估计空间制图。交叉验证结果表明,GWRK相较于传统制图方法(最小二乘回归、地理加权回归、回归克里金)具有更高的精度,决定系数R2为0.824,平均绝对误差为6.96μg/m3,均方根误差为10.94μg/m3。2017年逐月的PM_(2.5)浓度制图结果显示,在时间上,冬季是PM_(2.5)污染最严重的时段,夏季最轻,空间上,东部经济较为发达的城市如长三角地区是污染严重区,西南地区污染程度较轻。 The study of health exposure risk of fine particulate matter in air requires accurate spatial distribution information of PM 2.5 concentration as an important input for assessment.Due to the sparse monitoring stations,it is necessary to use the auxiliary information such as remote sensing to obtain the spatial distribution of PM 2.5 by spatial mapping model.One key issue to improve the accuracy of PM 2.5 concentration map isto integrate the spatial characters of PM 2.5 into model.In this paper,ahybrid method that integrate geographically weighted regression and kriging interpolation was developed as Geographically Weighted Regression Kriging (GWRK) model.Geographically weighted regression model was used to consider the spatial heterogeneity of PM 2.5 concentrationdistribution.The kriging method was adopted to model the spatial autocorrelation of the residual error.Then,we estimate monthly PM 2.5 concentration in China with GWRK by using the monitoring data fromair quality station,and auxiliary information from remote sensing and model simulation.The cross validation showed that GWRK achieved more accurate result than traditional mapping methods (least square regression,geographically weighted regression,regression kriging).The coefficient of determination was 0.824,the mean absolute error was 6.96 μg/m^3,and the root mean square error was 10.94 μg/m^3.The result of PM 2.5 concentration mappingshowed that winter was the most worse period,and summer was the lightest.In space,the cities with more developed economy in the east,such as the Yangtze River Delta,were polluted seriously,while the southwest was less polluted.
作者 邵彦川 王江浩 葛咏 Shao Yanchuan;Wang Jianghao;Ge Yong(Department of Environmental Science,College of Resources and Environmental Sciences,Nanjing Agricultural University,Nanjing 210095,China;State Key Laboratory of Resources and Environment Information System,Institute of Geographic Sciences and Natural Resources Research ,Beijing 100101,China;University of Chinese Academy of Sciences ,Beijing 100049 ,China)
出处 《遥感技术与应用》 CSCD 北大核心 2018年第6期1103-1111,共9页 Remote Sensing Technology and Application
基金 国家自然科学基金项目(41601427 41531174) 中国科学院A类战略性先导科技专项(XDA19040503)
关键词 地理加权回归克里金(GWRK) PM2.5 空间制图 Geographically Weighted Regression Kriging(GWRK) PM2.5 Spatial mapping
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