Understanding and extending the geographical detector model under a linear regression framework

IF 4.3 1区 地球科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS International Journal of Geographical Information Science Pub Date : 2023-10-09 DOI:10.1080/13658816.2023.2266497
Hang Zhang, Guanpeng Dong, Jinfeng Wang, Tong-Lin Zhang, Xiaoyu Meng, Dongyang Yang, Yong Liu, Binbin Lu
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Abstract

The Geographical Detector Model (GDM) is a popular statistical toolkit for geographical attribution analysis. Despite the striking resemblance of the q-statistic in GDM to the R-squared in linear regression models, their explicit connection has not yet been established. This study proves that the q-statistic reduces into the R-squared under a linear regression framework. Under linear regression and moderate-to-strong spatial autocorrelation, Monte Carlo simulation results show that the GDM tends to underestimate the importance of variables. In addition, an almost perfect power law relationship is present between the percentage bias and the degree of the spatial autocorrelations, indicating the presence of fast uplifting bias in response to increasing levels of spatial autocorrelations. We propose an integrated approach for variable importance quantification by bringing together the spatial econometrics model and the game theory based-Shapley value method. By applying our proposed methodology to a case study of land desertification in African, it is found human activity tends to affect land desertification both directly and indirectly. However, such effects appear to be underestimated or undistinguished in the classic GDM.
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理解和扩展线性回归框架下的地理探测器模型
地理探测器模型(GDM)是一种流行的用于地理归因分析的统计工具。尽管GDM中的q统计量与线性回归模型中的r平方惊人地相似,但它们之间的明确联系尚未建立。本研究证明了在线性回归框架下,q统计量约化为r平方。在线性回归和中强空间自相关条件下,蒙特卡罗模拟结果表明,GDM倾向于低估变量的重要性。此外,偏差百分比与空间自相关程度之间存在几乎完美的幂律关系,表明随着空间自相关水平的提高,存在快速上升的偏差。本文将空间计量经济学模型与基于博弈论的shapley值方法相结合,提出了一种综合的变量重要性量化方法。通过将本文提出的方法应用于非洲土地沙漠化的案例研究,发现人类活动倾向于直接和间接地影响土地沙漠化。然而,这种影响在经典GDM中似乎被低估或未被区分。
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来源期刊
CiteScore
11.00
自引率
7.00%
发文量
81
审稿时长
9 months
期刊介绍: International Journal of Geographical Information Science provides a forum for the exchange of original ideas, approaches, methods and experiences in the rapidly growing field of geographical information science (GIScience). It is intended to interest those who research fundamental and computational issues of geographic information, as well as issues related to the design, implementation and use of geographical information for monitoring, prediction and decision making. Published research covers innovations in GIScience and novel applications of GIScience in natural resources, social systems and the built environment, as well as relevant developments in computer science, cartography, surveying, geography and engineering in both developed and developing countries.
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