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Main Authors: Alpherts, Tim, Ghebreab, Sennay, van Noord, Nanne
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.11046
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author Alpherts, Tim
Ghebreab, Sennay
van Noord, Nanne
author_facet Alpherts, Tim
Ghebreab, Sennay
van Noord, Nanne
contents Street view data is increasingly being used in computer vision applications in recent years. Machine learning datasets are collected for these applications using simple sampling techniques. These datasets are assumed to be a systematic representation of cities, especially when densely sampled. Prior works however, show that there are clear gaps in coverage, with certain cities or regions being covered poorly or not at all. Here we demonstrate that a cities' idiosyncracies, such as city layout, may lead to biases in street view data for 28 cities across the globe, even when they are densely covered. We quantitatively uncover biases in the distribution of coverage of street view data and propose a method for evaluation of such distributions to get better insight in idiosyncracies in a cities' coverage. In addition, we perform a case study of Amsterdam with semi-structured interviews, showing how idiosyncracies of the collection process impact representation of cities and regions and allowing us to address biases at their source.
format Preprint
id arxiv_https___arxiv_org_abs_2505_11046
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Artifacts of Idiosyncracy in Global Street View Data
Alpherts, Tim
Ghebreab, Sennay
van Noord, Nanne
Computer Vision and Pattern Recognition
Street view data is increasingly being used in computer vision applications in recent years. Machine learning datasets are collected for these applications using simple sampling techniques. These datasets are assumed to be a systematic representation of cities, especially when densely sampled. Prior works however, show that there are clear gaps in coverage, with certain cities or regions being covered poorly or not at all. Here we demonstrate that a cities' idiosyncracies, such as city layout, may lead to biases in street view data for 28 cities across the globe, even when they are densely covered. We quantitatively uncover biases in the distribution of coverage of street view data and propose a method for evaluation of such distributions to get better insight in idiosyncracies in a cities' coverage. In addition, we perform a case study of Amsterdam with semi-structured interviews, showing how idiosyncracies of the collection process impact representation of cities and regions and allowing us to address biases at their source.
title Artifacts of Idiosyncracy in Global Street View Data
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2505.11046