Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial Photos

Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial Photos

Rapid response mapping of floodwater extents in urbanized areas, while essential for early damage assessment and rescue operations, also presents significant image interpretation challenges. Images from visible band (red–green–blue (RGB)) remote sensors are the most common and cost-effective for rea...

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Bibliographic Details
Main Authors: Ying Zhang, Peter Crawford
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Remote Sensing
Subjects:
automated target extraction
floodwater
dense urban areas
RGB imagery
Online Access:https://www.mdpi.com/2072-4292/12/14/2198
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spelling doaj-29fbc2cdfa49401c9032ba7e98cf94da2020-11-25T02:37:45ZengMDPI AGRemote Sensing2072-42922020-07-01122198219810.3390/rs12142198Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial PhotosYing Zhang0Peter Crawford1Canada Centre for Mapping and Earth Observation, Natural Resources Canada, 560 Rochester Street, Ottawa, ON K1S 5K2, CanadaCanada Centre for Mapping and Earth Observation, Natural Resources Canada, 560 Rochester Street, Ottawa, ON K1S 5K2, CanadaRapid response mapping of floodwater extents in urbanized areas, while essential for early damage assessment and rescue operations, also presents significant image interpretation challenges. Images from visible band (red–green–blue (RGB)) remote sensors are the most common and cost-effective for real-time applications. Based on an understanding of the differing characteristics of turbid floodwater and urban land surface classes, a robust method was developed and automatized to extract visible floodwater using RGB band digital numbers. The methodology was applied to delineate visible floodwater distribution from very high-resolution aerial image data acquired during the 2013 Calgary flood event. The methodology development involved segment- and pixel-based feature analysis, rule development, automated feature extraction, and result validation processing. The accuracies for the visible floodwater class were above 0.8394% and the overall accuracies were above 0.9668% at both pixel and segment levels for three test sites with diverse urban landscapes.https://www.mdpi.com/2072-4292/12/14/2198automated target extractionfloodwaterdense urban areasRGB imagery
collection DOAJ
language English
format Article
sources DOAJ
author Ying Zhang
Peter Crawford
spellingShingle Ying Zhang
Peter Crawford
Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial Photos
Remote Sensing
automated target extraction
floodwater
dense urban areas
RGB imagery
author_facet Ying Zhang
Peter Crawford
author_sort Ying Zhang
title Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial Photos
title_short Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial Photos
title_full Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial Photos
title_fullStr Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial Photos
title_full_unstemmed Automated Extraction of Visible Floodwater in Dense Urban Areas from RGB Aerial Photos
title_sort automated extraction of visible floodwater in dense urban areas from rgb aerial photos
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2020-07-01
description Rapid response mapping of floodwater extents in urbanized areas, while essential for early damage assessment and rescue operations, also presents significant image interpretation challenges. Images from visible band (red–green–blue (RGB)) remote sensors are the most common and cost-effective for real-time applications. Based on an understanding of the differing characteristics of turbid floodwater and urban land surface classes, a robust method was developed and automatized to extract visible floodwater using RGB band digital numbers. The methodology was applied to delineate visible floodwater distribution from very high-resolution aerial image data acquired during the 2013 Calgary flood event. The methodology development involved segment- and pixel-based feature analysis, rule development, automated feature extraction, and result validation processing. The accuracies for the visible floodwater class were above 0.8394% and the overall accuracies were above 0.9668% at both pixel and segment levels for three test sites with diverse urban landscapes.
topic automated target extraction
floodwater
dense urban areas
RGB imagery
url https://www.mdpi.com/2072-4292/12/14/2198
work_keys_str_mv AT yingzhang automatedextractionofvisiblefloodwaterindenseurbanareasfromrgbaerialphotos
AT petercrawford automatedextractionofvisiblefloodwaterindenseurbanareasfromrgbaerialphotos
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