Locally varying geostatistical machine learning for spatial prediction  

作　　者：Francky Fouedjio Emet Arya 

机构地区：[1]Rio Tinto,Data&Analytics,152-158 St Georges Terrace,Perth,WA 6000,Australia [2]Kaplan Business School Pty Ltd,Perth Campus,1325 Hay St,West Perth,WA,6005,Australia [3]Edith Cowan University,School of Science,270 Joondalup Drive,Joondalup,WA 6027,Australia

出　　处：《Artificial Intelligence in Geosciences》2024年第1期28-45,共18页地学人工智能（英文）

摘　　要：Machine learning methods dealing with the spatial auto-correlation of the response variable have garnered significant attention in the context of spatial prediction.Nonetheless,under these methods,the relationship between the response variable and explanatory variables is assumed to be homogeneous throughout the entire study area.This assumption,known as spatial stationarity,is very questionable in real-world situations due to the influence of contextual factors.Therefore,allowing the relationship between the target variable and predictor variables to vary spatially within the study region is more reasonable.However,existing machine learning techniques accounting for the spatially varying relationship between the dependent variable and the predictor variables do not capture the spatial auto-correlation of the dependent variable itself.Moreover,under these techniques,local machine learning models are effectively built using only fewer observations,which can lead to well-known issues such as over-fitting and the curse of dimensionality.This paper introduces a novel geostatistical machine learning approach where both the spatial auto-correlation of the response variable and the spatial non-stationarity of the regression relationship between the response and predictor variables are explicitly considered.The basic idea consists of relying on the local stationarity assumption to build a collection of local machine learning models while leveraging on the local spatial auto-correlation of the response variable to locally augment the training dataset.The proposed method’s effectiveness is showcased via experiments conducted on synthetic spatial data with known characteristics as well as real-world spatial data.In the synthetic(resp.real)case study,the proposed method’s predictive accuracy,as indicated by the Root Mean Square Error(RMSE)on the test set,is 17%(resp.7%)better than that of popular machine learning methods dealing with the response variable’s spatial auto-correlation.Additionally,this method is not only

关 键 词：Data augmentation GEOSTATISTICS Local stationarity Machine learning Conditional simulation Spatial auto-correlation Spatial non-stationarity Spatial uncertainty 

分 类 号：H31[语言文字—英语]