Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 Data

Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 Data

As the world urbanizes and builds more infrastructure, the extraction of built-up areas using remote sensing is crucial for monitoring land cover changes and understanding urban environments. Previous studies have proposed a variety of methods for mapping regional and global built-up areas. However,...

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Bibliographic Details
Main Authors: Chang Liu, Kang Yang, Mia M. Bennett, Ziyan Guo, Liang Cheng, Manchun Li
Format: Article
Language:English
Published: MDPI AG 2019-07-01
Series:Remote Sensing
Subjects:
built-up area
image classification
data fusion
nighttime lights
VIIRS
Landsat-8
Online Access:https://www.mdpi.com/2072-4292/11/13/1571
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spelling doaj-0ce0998284c94aa4bb5a43b01e05983f2020-11-25T01:08:23ZengMDPI AGRemote Sensing2072-42922019-07-011113157110.3390/rs11131571rs11131571Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 DataChang Liu0Kang Yang1Mia M. Bennett2Ziyan Guo3Liang Cheng4Manchun Li5School of Geography and Ocean Science, Nanjing University, Nanjing 210023, ChinaSchool of Geography and Ocean Science, Nanjing University, Nanjing 210023, ChinaDepartment of Geography and School of Modern Languages & Cultures (China Studies Programme), The University of Hong Kong, Hong KongSchool of Geography and Ocean Science, Nanjing University, Nanjing 210023, ChinaSchool of Geography and Ocean Science, Nanjing University, Nanjing 210023, ChinaSchool of Geography and Ocean Science, Nanjing University, Nanjing 210023, ChinaAs the world urbanizes and builds more infrastructure, the extraction of built-up areas using remote sensing is crucial for monitoring land cover changes and understanding urban environments. Previous studies have proposed a variety of methods for mapping regional and global built-up areas. However, most of these methods rely on manual selection of training samples and classification thresholds, leading to low extraction efficiency. Furthermore, thematic accuracy is limited by interference from other land cover types like bare land, which hinder accurate and timely extraction and monitoring of dynamic changes in built-up areas. This study proposes a new method to map built-up areas by combining VIIRS (Visible Infrared Imaging Radiometer Suite) nighttime lights (NTL) data and Landsat-8 multispectral imagery. First, an adaptive NTL threshold was established, vegetation and water masks were superimposed, and built-up training samples were automatically acquired. Second, the training samples were employed to perform supervised classification of Landsat-8 data before deriving the preliminary built-up areas. Third, VIIRS NTL data were used to obtain the built-up target areas, which were superimposed onto the built-up preliminary classification results to obtain the built-up area fine classification results. Four major metropolitan areas in Eurasia formed the study areas, and the high spatial resolution (20 m) built-up area product High Resolution Layer Imperviousness Degree (HRL IMD) 2015 served as the reference data. The results indicate that our method can accurately and automatically acquire built-up training samples and adaptive thresholds, allowing for accurate estimates of the spatial distribution of built-up areas. With an overall accuracy exceeding 94.7%, our method exceeded accuracy levels of the FROM-GLC and GUL built-up area products and the PII built-up index. The accuracy and efficiency of our proposed method have significant potential for global built-up area mapping and dynamic change monitoring.https://www.mdpi.com/2072-4292/11/13/1571built-up areaimage classificationdata fusionnighttime lightsVIIRSLandsat-8
collection DOAJ
language English
format Article
sources DOAJ
author Chang Liu
Kang Yang
Mia M. Bennett
Ziyan Guo
Liang Cheng
Manchun Li
spellingShingle Chang Liu
Kang Yang
Mia M. Bennett
Ziyan Guo
Liang Cheng
Manchun Li
Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 Data
Remote Sensing
built-up area
image classification
data fusion
nighttime lights
VIIRS
Landsat-8
author_facet Chang Liu
Kang Yang
Mia M. Bennett
Ziyan Guo
Liang Cheng
Manchun Li
author_sort Chang Liu
title Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 Data
title_short Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 Data
title_full Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 Data
title_fullStr Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 Data
title_full_unstemmed Automated Extraction of Built-Up Areas by Fusing VIIRS Nighttime Lights and Landsat-8 Data
title_sort automated extraction of built-up areas by fusing viirs nighttime lights and landsat-8 data
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2019-07-01
description As the world urbanizes and builds more infrastructure, the extraction of built-up areas using remote sensing is crucial for monitoring land cover changes and understanding urban environments. Previous studies have proposed a variety of methods for mapping regional and global built-up areas. However, most of these methods rely on manual selection of training samples and classification thresholds, leading to low extraction efficiency. Furthermore, thematic accuracy is limited by interference from other land cover types like bare land, which hinder accurate and timely extraction and monitoring of dynamic changes in built-up areas. This study proposes a new method to map built-up areas by combining VIIRS (Visible Infrared Imaging Radiometer Suite) nighttime lights (NTL) data and Landsat-8 multispectral imagery. First, an adaptive NTL threshold was established, vegetation and water masks were superimposed, and built-up training samples were automatically acquired. Second, the training samples were employed to perform supervised classification of Landsat-8 data before deriving the preliminary built-up areas. Third, VIIRS NTL data were used to obtain the built-up target areas, which were superimposed onto the built-up preliminary classification results to obtain the built-up area fine classification results. Four major metropolitan areas in Eurasia formed the study areas, and the high spatial resolution (20 m) built-up area product High Resolution Layer Imperviousness Degree (HRL IMD) 2015 served as the reference data. The results indicate that our method can accurately and automatically acquire built-up training samples and adaptive thresholds, allowing for accurate estimates of the spatial distribution of built-up areas. With an overall accuracy exceeding 94.7%, our method exceeded accuracy levels of the FROM-GLC and GUL built-up area products and the PII built-up index. The accuracy and efficiency of our proposed method have significant potential for global built-up area mapping and dynamic change monitoring.
topic built-up area
image classification
data fusion
nighttime lights
VIIRS
Landsat-8
url https://www.mdpi.com/2072-4292/11/13/1571
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