Effect of spatial scale, color infrared and sample size on learning poverty from aerial images

IF 3.8 Q2 ENVIRONMENTAL SCIENCES Remote Sensing Applications-Society and Environment Pub Date : 2024-07-31 DOI:10.1016/j.rsase.2024.101304

Joep Burger , Harm Jan Boonstra , Jan van den Brakel

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Abstract

There is a growing amount of literature that focuses on using machine learning algorithms to predict poverty from satellite and aerial images on a low regional level, particularly for countries without a high-quality official statistical system. The data used for annotating images and training an algorithm are generally based on sample surveys. In The Netherlands, statistics on income and poverty are derived from tax registers resulting in a complete enumeration of the Dutch population. In this paper, we use this complete enumeration to simulate to which extent satellite or aerial images can predict poverty on low regional levels. After geocoding these households, aerial images are annotated and a deep learning algorithm is trained to predict poverty. The precision of the predictions is evaluated by comparing it with the true poverty fractions known from tax registers. The effect of different spatial scales (1-ha vs. 25-ha images), spectral bands (RGB vs. CIR), and sample sizes for the training set are compared. It is discussed how this information can be used in the production of low regional statistics on poverty in countries where high-quality official statistical systems are lacking.

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空间尺度、彩色红外线和样本大小对从航空图像中了解贫困状况的影响

有越来越多的文献侧重于使用机器学习算法从卫星和航空图像预测低区域层面的贫困状况，特别是对于没有高质量官方统计系统的国家。用于注释图像和训练算法的数据通常基于抽样调查。在荷兰，有关收入和贫困的统计数据来自税务登记，从而对荷兰人口进行了全面统计。在本文中，我们利用这一完整的人口统计来模拟卫星或航空图像在多大程度上可以预测低区域的贫困状况。在对这些家庭进行地理编码后，对航空图像进行注释，并训练深度学习算法来预测贫困。通过与税务登记中已知的真实贫困率进行比较，对预测的精确度进行评估。比较了不同空间尺度（1 公顷与 25 公顷图像）、光谱带（RGB 与 CIR）和训练集样本大小的影响。讨论了在缺乏高质量官方统计系统的国家中，如何利用这些信息来编制低水平的区域贫困统计数据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Remote Sensing Applications-Society and Environment Multiple-

CiteScore

8.00

自引率

8.50%

发文量

204

审稿时长

65 days

期刊介绍： The journal ''Remote Sensing Applications: Society and Environment'' (RSASE) focuses on remote sensing studies that address specific topics with an emphasis on environmental and societal issues - regional / local studies with global significance. Subjects are encouraged to have an interdisciplinary approach and include, but are not limited by: " -Global and climate change studies addressing the impact of increasing concentrations of greenhouse gases, CO2 emission, carbon balance and carbon mitigation, energy system on social and environmental systems -Ecological and environmental issues including biodiversity, ecosystem dynamics, land degradation, atmospheric and water pollution, urban footprint, ecosystem management and natural hazards (e.g. earthquakes, typhoons, floods, landslides) -Natural resource studies including land-use in general, biomass estimation, forests, agricultural land, plantation, soils, coral reefs, wetland and water resources -Agriculture, food production systems and food security outcomes -Socio-economic issues including urban systems, urban growth, public health, epidemics, land-use transition and land use conflicts -Oceanography and coastal zone studies, including sea level rise projections, coastlines changes and the ocean-land interface -Regional challenges for remote sensing application techniques, monitoring and analysis, such as cloud screening and atmospheric correction for tropical regions -Interdisciplinary studies combining remote sensing, household survey data, field measurements and models to address environmental, societal and sustainability issues -Quantitative and qualitative analysis that documents the impact of using remote sensing studies in social, political, environmental or economic systems