Do poverty and wealth look the same the world over? A comparative study of 12 cities from five high-income countries using street images.

IF 3 2区计算机科学 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

EPJ Data Science Pub Date : 2023-01-01 Epub Date: 2023-06-07 DOI:10.1140/epjds/s13688-023-00394-6

Esra Suel, Emily Muller, James E Bennett, Tony Blakely, Yvonne Doyle, John Lynch, Joreintje D Mackenbach, Ariane Middel, Anja Mizdrak, Ricky Nathvani, Michael Brauer, Majid Ezzati

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Abstract

Urbanization and inequalities are two of the major policy themes of our time, intersecting in large cities where social and economic inequalities are particularly pronounced. Large scale street-level images are a source of city-wide visual information and allow for comparative analyses of multiple cities. Computer vision methods based on deep learning applied to street images have been shown to successfully measure inequalities in socioeconomic and environmental features, yet existing work has been within specific geographies and have not looked at how visual environments compare across different cities and countries. In this study, we aim to apply existing methods to understand whether, and to what extent, poor and wealthy groups live in visually similar neighborhoods across cities and countries. We present novel insights on similarity of neighborhoods using street-level images and deep learning methods. We analyzed 7.2 million images from 12 cities in five high-income countries, home to more than 85 million people: Auckland (New Zealand), Sydney (Australia), Toronto and Vancouver (Canada), Atlanta, Boston, Chicago, Los Angeles, New York, San Francisco, and Washington D.C. (United States of America), and London (United Kingdom). Visual features associated with neighborhood disadvantage are more distinct and unique to each city than those associated with affluence. For example, from what is visible from street images, high density poor neighborhoods located near the city center (e.g., in London) are visually distinct from poor suburban neighborhoods characterized by lower density and lower accessibility (e.g., in Atlanta). This suggests that differences between two cities is also driven by historical factors, policies, and local geography. Our results also have implications for image-based measures of inequality in cities especially when trained on data from cities that are visually distinct from target cities. We showed that these are more prone to errors for disadvantaged areas especially when transferring across cities, suggesting more attention needs to be paid to improving methods for capturing heterogeneity in poor environment across cities around the world.

Supplementary information: The online version contains supplementary material available at 10.1140/epjds/s13688-023-00394-6.

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全世界的贫穷和富裕看起来都一样吗？利用街道图像对五个高收入国家的 12 座城市进行比较研究。

城市化和不平等是当今时代的两大政策主题，在社会和经济不平等现象尤为突出的大城市中，这两个主题相互交织。大规模的街道图像是整个城市视觉信息的来源，可以对多个城市进行比较分析。基于深度学习的计算机视觉方法应用于街道图像，已被证明能成功测量社会经济和环境特征中的不平等，但现有的工作都是在特定的地理范围内进行的，并没有研究不同城市和国家之间的视觉环境是如何比较的。在本研究中，我们旨在应用现有方法，了解不同城市和国家的贫困群体和富裕群体是否生活在视觉相似的街区，以及在多大程度上生活在视觉相似的街区。我们利用街景图像和深度学习方法，对街区的相似性提出了新的见解。我们分析了来自五个高收入国家 12 个城市的 720 万张图像，这些城市拥有超过 8500 万人口：这些城市包括：奥克兰（新西兰）、悉尼（澳大利亚）、多伦多和温哥华（加拿大）、亚特兰大、波士顿、芝加哥、洛杉矶、纽约、旧金山和华盛顿特区（美国）以及伦敦（英国）。与富裕地区相比，每个城市与贫困地区相关的视觉特征更为明显和独特。例如，从街道图像上可以看出，靠近市中心的高密度贫困社区（如伦敦）与郊区的低密度贫困社区（如亚特兰大）在视觉上截然不同。这表明，两个城市之间的差异还受到历史因素、政策和当地地理环境的影响。我们的研究结果还对基于图像的城市不平等度量方法产生了影响，尤其是在对来自视觉上与目标城市截然不同的城市的数据进行训练时。我们的研究结果表明，对于贫困地区来说，这些方法更容易出现误差，尤其是在跨城市转移时，这表明需要更加关注如何改进方法，以捕捉世界各地城市贫困环境的异质性：在线版本包含补充材料，可查阅 10.1140/epjds/s13688-023-00394-6。

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

EPJ Data Science MATHEMATICS, INTERDISCIPLINARY APPLICATIONS -

CiteScore

6.10

自引率

5.60%

发文量

审稿时长

13 weeks

期刊介绍： EPJ Data Science covers a broad range of research areas and applications and particularly encourages contributions from techno-socio-economic systems, where it comprises those research lines that now regard the digital “tracks” of human beings as first-order objects for scientific investigation. Topics include, but are not limited to, human behavior, social interaction (including animal societies), economic and financial systems, management and business networks, socio-technical infrastructure, health and environmental systems, the science of science, as well as general risk and crisis scenario forecasting up to and including policy advice.