空间地理人口分类的图神经网络框架

IF 4.3 1区 地球科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Stefano De Sabbata, Pengyuan Liu
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引用次数: 1

摘要

地理人口分类是地理分析、商业和政策制定的特殊工具,通过基于大量变量创建一个无监督的、自下而上的区域分类,提供了一个地区社会人口结构的概述。经典的方法可能需要对输入变量进行耗时的预处理,并且通常是一个空间过程。在这项研究中,我们提出了一个开创性的,系统的调查使用图形神经网络的空间地理人口分类。以大伦敦为例,我们将一系列图形自动编码器设计与伦敦官方输出区域分类和使用空间模糊c-means开发的基线分类进行比较。结果表明,基于以节点属性为中心的图形自动编码器(NAGAE)的框架可以在提供更高的空间聚类的同时,在类同质性度量上执行与经典方法相似的性能。最后,我们讨论了该框架目前的局限性及其发展成为创建一系列地理人口分类的新范式的潜力,从简单的本地分类到能够将一系列空间关系纳入该过程的复杂分类。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A graph neural network framework for spatial geodemographic classification
Geodemographic classifications are exceptional tools for geographic analysis, business and policy-making, providing an overview of the socio-demographic structure of a region by creating an unsupervised, bottom-up classification of its areas based on a large set of variables. Classic approaches can require time-consuming preprocessing of input variables and are frequently a-spatial processes. In this study, we present a groundbreaking, systematic investigation of the use of graph neural networks for spatial geodemographic classification. Using Greater London as a case study, we compare a range of graph autoencoder designs with the official London Output Area Classification and baseline classifications developed using spatial fuzzy c-means. The results show that our framework based on a Node Attributes-focused Graph AutoEncoder (NAGAE) can perform similarly to classic approaches on class homogeneity metrics while providing higher spatial clustering. We conclude by discussing the current limitations of the proposed framework and its potential to develop into a new paradigm for creating a range of geodemographic classifications, from simple, local ones to complex classifications able to incorporate a range of spatial relationships into the process.
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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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