Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice Highway

Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice Highway

This paper describes a fast procedure for evaluating asphalt pavement surface defects using airborne emissivity data. To develop this procedure, we used airborne multispectral emissivity data covering an urban test area close to Venice (Italy).For this study, we first identify and select the roadsâ...

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Bibliographic Details
Main Authors: Rosa Cavalli, Maurizio Poscolieri, Angelo Palombo, Cristiana Bassani, Simone Pascucci
Format: Article
Language:English
Published: MDPI AG 2008-02-01
Series:Sensors
Subjects:
urban environmental monitoring
thermal remote sensing
object-oriented
Online Access:http://www.mdpi.com/1424-8220/8/2/1278/
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spelling doaj-f3448514417947439573dbbf87fc84d82020-11-25T00:04:26ZengMDPI AGSensors1424-82202008-02-018212781296Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice HighwayRosa CavalliMaurizio PoscolieriAngelo PalomboCristiana BassaniSimone PascucciThis paper describes a fast procedure for evaluating asphalt pavement surface defects using airborne emissivity data. To develop this procedure, we used airborne multispectral emissivity data covering an urban test area close to Venice (Italy).For this study, we first identify and select the roads’ asphalt pavements on Multispectral Infrared Visible Imaging Spectrometer (MIVIS) imagery using a segmentation procedure. Next, since in asphalt pavements the surface defects are strictly related to the decrease of oily components that cause an increase of the abundance of surfacing limestone, the diagnostic absorption emissivity peak at 11.2μm of the limestone was used for retrieving from MIVIS emissivity data the areas exhibiting defects on asphalt pavements surface.The results showed that MIVIS emissivity allows establishing a threshold that points out those asphalt road sites on which a check for a maintenance intervention is required. Therefore, this technique can supply local government authorities an efficient, rapid and repeatable road mapping procedure providing the location of the asphalt pavements to be checked.http://www.mdpi.com/1424-8220/8/2/1278/urban environmental monitoringthermal remote sensingobject-oriented
collection DOAJ
language English
format Article
sources DOAJ
author Rosa Cavalli
Maurizio Poscolieri
Angelo Palombo
Cristiana Bassani
Simone Pascucci
spellingShingle Rosa Cavalli
Maurizio Poscolieri
Angelo Palombo
Cristiana Bassani
Simone Pascucci
Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice Highway
Sensors
urban environmental monitoring
thermal remote sensing
object-oriented
author_facet Rosa Cavalli
Maurizio Poscolieri
Angelo Palombo
Cristiana Bassani
Simone Pascucci
author_sort Rosa Cavalli
title Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice Highway
title_short Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice Highway
title_full Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice Highway
title_fullStr Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice Highway
title_full_unstemmed Road Asphalt Pavements Analyzed by Airborne Thermal Remote Sensing: Preliminary Results of the Venice Highway
title_sort road asphalt pavements analyzed by airborne thermal remote sensing: preliminary results of the venice highway
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2008-02-01
description This paper describes a fast procedure for evaluating asphalt pavement surface defects using airborne emissivity data. To develop this procedure, we used airborne multispectral emissivity data covering an urban test area close to Venice (Italy).For this study, we first identify and select the roads’ asphalt pavements on Multispectral Infrared Visible Imaging Spectrometer (MIVIS) imagery using a segmentation procedure. Next, since in asphalt pavements the surface defects are strictly related to the decrease of oily components that cause an increase of the abundance of surfacing limestone, the diagnostic absorption emissivity peak at 11.2μm of the limestone was used for retrieving from MIVIS emissivity data the areas exhibiting defects on asphalt pavements surface.The results showed that MIVIS emissivity allows establishing a threshold that points out those asphalt road sites on which a check for a maintenance intervention is required. Therefore, this technique can supply local government authorities an efficient, rapid and repeatable road mapping procedure providing the location of the asphalt pavements to be checked.
topic urban environmental monitoring
thermal remote sensing
object-oriented
url http://www.mdpi.com/1424-8220/8/2/1278/
work_keys_str_mv AT rosacavalli roadasphaltpavementsanalyzedbyairbornethermalremotesensingpreliminaryresultsofthevenicehighway
AT maurizioposcolieri roadasphaltpavementsanalyzedbyairbornethermalremotesensingpreliminaryresultsofthevenicehighway
AT angelopalombo roadasphaltpavementsanalyzedbyairbornethermalremotesensingpreliminaryresultsofthevenicehighway
AT cristianabassani roadasphaltpavementsanalyzedbyairbornethermalremotesensingpreliminaryresultsofthevenicehighway
AT simonepascucci roadasphaltpavementsanalyzedbyairbornethermalremotesensingpreliminaryresultsofthevenicehighway
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