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Towards an improved large-scale gridded population dataset: a Pan-European study on the integration of 3D settlement data into population modelling

Towards an improved large-scale gridded population dataset: a Pan-European study on the integration of 3D settlement data into population modelling
Towards an improved large-scale gridded population dataset: a Pan-European study on the integration of 3D settlement data into population modelling

Large-scale gridded population datasets available at the global or continental scale have become an important source of information in applications related to sustainable development. In recent years, the emergence of new population models has leveraged the inclusion of more accurate and spatially detailed proxy layers describing the built-up environment (e.g., built-area and building footprint datasets), enhancing the quality, accuracy and spatial resolution of existing products. However, due to the consistent lack of vertical and functional information on the built-up environ-ment, large-scale gridded population datasets that rely on existing built-up land proxies still report large errors of under-and overestimation, especially in areas with predominantly high-rise buildings or industrial/commercial areas, respectively. This research investigates, for the first time, the potential contributions of the new World Settlement Footprint—3D (WSF3D) dataset in the field of large-scale population modelling. First, we combined a Random Forest classifier with spatial metrics derived from the WSF3D to predict the industrial versus non-industrial use of settlement pixels at the Pan-European scale. We then examined the effects of including volume and settlement use information into frameworks of dasymetric population modelling. We found that the proposed classification method can predict industrial and non-industrial areas with overall accuracies and a kappa-coefficient of ~84% and 0.68, respectively. Additionally, we found that both, integrating volume and settlement use information considerably increased the accuracy of population estimates between 10% and 30% over commonly employed models (e.g., based on a binary settlement mask as input), mainly by eliminating systematic large overestimations in industrial/commercial areas. While the proposed method shows strong promise for overcoming some of the main limitations in large-scale population modelling, future research should focus on improving the quality of the WFS3D dataset and the classification method alike, to avoid the false detection of built-up settlements and to reduce misclassification errors of industrial and high-rise buildings.

Accuracy assessment, Dasymetric modelling, Large-scale gridded population dataset, Random forest classifier, Spatial metrics, Sustainable development, World settlement Footprint-3D
2072-4292
Palacios-Lopez, Daniela
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Esch, Thomas
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MacManus, Kytt
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Marconcini, Mattia
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Sorichetta, Alessandro
c80d941b-a3f5-4a6d-9a19-e3eeba84443c
Yetman, Greg
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Zeidler, Julian
b470489b-5ffa-4725-97c0-4b8814a0a3fa
Dech, Stefan
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Tatem, Andrew J.
6c6de104-a5f9-46e0-bb93-a1a7c980513e
Reinartz, Peter
a9610725-e18d-4abf-88c3-91b177b5b951
Palacios-Lopez, Daniela
420272b8-7376-4b7d-a092-bc28b3d847c5
Esch, Thomas
0ebe775b-b9ef-4e31-9736-e097e8a8d5ff
MacManus, Kytt
e7fcafad-9e54-4dc4-a8a4-009cb48cfbf6
Marconcini, Mattia
86ac2591-f378-4302-8165-d2940c6dff04
Sorichetta, Alessandro
c80d941b-a3f5-4a6d-9a19-e3eeba84443c
Yetman, Greg
149630df-4250-4fc4-a4bf-72a7e60da962
Zeidler, Julian
b470489b-5ffa-4725-97c0-4b8814a0a3fa
Dech, Stefan
70ec6067-21e2-4cbd-86eb-79170bfce7c2
Tatem, Andrew J.
6c6de104-a5f9-46e0-bb93-a1a7c980513e
Reinartz, Peter
a9610725-e18d-4abf-88c3-91b177b5b951

Palacios-Lopez, Daniela, Esch, Thomas, MacManus, Kytt, Marconcini, Mattia, Sorichetta, Alessandro, Yetman, Greg, Zeidler, Julian, Dech, Stefan, Tatem, Andrew J. and Reinartz, Peter (2022) Towards an improved large-scale gridded population dataset: a Pan-European study on the integration of 3D settlement data into population modelling. Remote Sensing, 14 (2), [325]. (doi:10.3390/rs14020325).

Record type: Article

Abstract

Large-scale gridded population datasets available at the global or continental scale have become an important source of information in applications related to sustainable development. In recent years, the emergence of new population models has leveraged the inclusion of more accurate and spatially detailed proxy layers describing the built-up environment (e.g., built-area and building footprint datasets), enhancing the quality, accuracy and spatial resolution of existing products. However, due to the consistent lack of vertical and functional information on the built-up environ-ment, large-scale gridded population datasets that rely on existing built-up land proxies still report large errors of under-and overestimation, especially in areas with predominantly high-rise buildings or industrial/commercial areas, respectively. This research investigates, for the first time, the potential contributions of the new World Settlement Footprint—3D (WSF3D) dataset in the field of large-scale population modelling. First, we combined a Random Forest classifier with spatial metrics derived from the WSF3D to predict the industrial versus non-industrial use of settlement pixels at the Pan-European scale. We then examined the effects of including volume and settlement use information into frameworks of dasymetric population modelling. We found that the proposed classification method can predict industrial and non-industrial areas with overall accuracies and a kappa-coefficient of ~84% and 0.68, respectively. Additionally, we found that both, integrating volume and settlement use information considerably increased the accuracy of population estimates between 10% and 30% over commonly employed models (e.g., based on a binary settlement mask as input), mainly by eliminating systematic large overestimations in industrial/commercial areas. While the proposed method shows strong promise for overcoming some of the main limitations in large-scale population modelling, future research should focus on improving the quality of the WFS3D dataset and the classification method alike, to avoid the false detection of built-up settlements and to reduce misclassification errors of industrial and high-rise buildings.

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Accepted/In Press date: 7 January 2022
Published date: 11 January 2022
Additional Information: Funding Information: Funding: This work was supported by the EU-funded ACP-EU Natural Disaster Risk Reduction Program, managed by the Global Facility for Disaster Reduction and Recovery of the World Bank (contract nos. 7194331 and 7196541). This work was funded by the German Academic Exchange Service (DAAD) providing the research fellowship to Daniela Palacios Lopez No. 91687956. Funding Information: Acknowledgments: The authors would like to acknowledge the U.S. National Aeronautics and Space Administration (NASA) contract 80GSFC18C0111 for the continued operation of the Socioeconomic Data and Applications Center (SEDAC), which is operated by the Center for International Earth Science Information Network (CIESIN) of Columbia University. Additionally, the authors would like to thank the following research for their insightful support and orientation in the topic of random forest modelling and validation. In alphabetical order: Mariel Christina Dirscherl, Thor-sten Hoeser and Aiym Orynbaikyzy. Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
Keywords: Accuracy assessment, Dasymetric modelling, Large-scale gridded population dataset, Random forest classifier, Spatial metrics, Sustainable development, World settlement Footprint-3D

Identifiers

Local EPrints ID: 456336
URI: http://eprints.soton.ac.uk/id/eprint/456336
ISSN: 2072-4292
PURE UUID: e72872ce-3d18-47fb-b67c-77d4ed05945d
ORCID for Alessandro Sorichetta: ORCID iD orcid.org/0000-0002-3576-5826
ORCID for Andrew J. Tatem: ORCID iD orcid.org/0000-0002-7270-941X

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Date deposited: 27 Apr 2022 02:19
Last modified: 06 Jun 2024 01:50

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Contributors

Author: Daniela Palacios-Lopez
Author: Thomas Esch
Author: Kytt MacManus
Author: Mattia Marconcini
Author: Greg Yetman
Author: Julian Zeidler
Author: Stefan Dech
Author: Andrew J. Tatem ORCID iD
Author: Peter Reinartz

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