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Surface flows from images: ten days of observations from the Tiber River gauge-cam station

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Zeitschriftentitel: Hydrology Research
Personen und Körperschaften: Tauro, Flavia, Salvatori, Simone
In: Hydrology Research, 48, 2017, 3, S. 646-655
Format: E-Article
Sprache: Englisch
veröffentlicht:
IWA Publishing
Schlagwörter:
Water Science and Technology
author_facet Tauro, Flavia
Salvatori, Simone
Tauro, Flavia
Salvatori, Simone
author Tauro, Flavia
Salvatori, Simone
spellingShingle Tauro, Flavia
Salvatori, Simone
Hydrology Research
Surface flows from images: ten days of observations from the Tiber River gauge-cam station
Water Science and Technology
author_sort tauro, flavia
spelling Tauro, Flavia Salvatori, Simone 0029-1277 2224-7955 IWA Publishing Water Science and Technology http://dx.doi.org/10.2166/nh.2016.302 <jats:p>Fully remote surface flow measurements are crucial for flow monitoring during floods and in difficult-to-access areas. Recently, optics-based surface flow monitoring has been enabled through a permanent gauge-cam station on the Tiber River, Rome, Italy. Therein, a system of lasers and an internet protocol camera equipped with two optical modules afford video acquisitions of the river surface every 10 minutes. In this work, we establish a standard video-processing protocol by analyzing more than 10 Gb of footage data captured during low discharge regime from May 2nd to 11th, 2015, through particle tracking velocimetry (PTV). We show that good image-based velocity data can be obtained throughout the day – from 6 am to 8 pm – despite the challenging experimental settings (direct sunlight illumination, mirror-like river surface, and overlying bridge shadow). Further, we demonstrate that images captured with a 27° angle of view optical sensor lead to average velocity measurements in agreement with available radar data. Consistent with similar optical methods, PTV is not applicable in case of adverse illumination and at night; however, it is more robust for dishomogeneous distributions of floaters in the field of view.</jats:p> Surface flows from images: ten days of observations from the Tiber River gauge-cam station Hydrology Research
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title Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_unstemmed Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_full Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_fullStr Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_full_unstemmed Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_short Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_sort surface flows from images: ten days of observations from the tiber river gauge-cam station
topic Water Science and Technology
url http://dx.doi.org/10.2166/nh.2016.302
publishDate 2017
physical 646-655
description <jats:p>Fully remote surface flow measurements are crucial for flow monitoring during floods and in difficult-to-access areas. Recently, optics-based surface flow monitoring has been enabled through a permanent gauge-cam station on the Tiber River, Rome, Italy. Therein, a system of lasers and an internet protocol camera equipped with two optical modules afford video acquisitions of the river surface every 10 minutes. In this work, we establish a standard video-processing protocol by analyzing more than 10 Gb of footage data captured during low discharge regime from May 2nd to 11th, 2015, through particle tracking velocimetry (PTV). We show that good image-based velocity data can be obtained throughout the day – from 6 am to 8 pm – despite the challenging experimental settings (direct sunlight illumination, mirror-like river surface, and overlying bridge shadow). Further, we demonstrate that images captured with a 27° angle of view optical sensor lead to average velocity measurements in agreement with available radar data. Consistent with similar optical methods, PTV is not applicable in case of adverse illumination and at night; however, it is more robust for dishomogeneous distributions of floaters in the field of view.</jats:p>
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description <jats:p>Fully remote surface flow measurements are crucial for flow monitoring during floods and in difficult-to-access areas. Recently, optics-based surface flow monitoring has been enabled through a permanent gauge-cam station on the Tiber River, Rome, Italy. Therein, a system of lasers and an internet protocol camera equipped with two optical modules afford video acquisitions of the river surface every 10 minutes. In this work, we establish a standard video-processing protocol by analyzing more than 10 Gb of footage data captured during low discharge regime from May 2nd to 11th, 2015, through particle tracking velocimetry (PTV). We show that good image-based velocity data can be obtained throughout the day – from 6 am to 8 pm – despite the challenging experimental settings (direct sunlight illumination, mirror-like river surface, and overlying bridge shadow). Further, we demonstrate that images captured with a 27° angle of view optical sensor lead to average velocity measurements in agreement with available radar data. Consistent with similar optical methods, PTV is not applicable in case of adverse illumination and at night; however, it is more robust for dishomogeneous distributions of floaters in the field of view.</jats:p>
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spelling Tauro, Flavia Salvatori, Simone 0029-1277 2224-7955 IWA Publishing Water Science and Technology http://dx.doi.org/10.2166/nh.2016.302 <jats:p>Fully remote surface flow measurements are crucial for flow monitoring during floods and in difficult-to-access areas. Recently, optics-based surface flow monitoring has been enabled through a permanent gauge-cam station on the Tiber River, Rome, Italy. Therein, a system of lasers and an internet protocol camera equipped with two optical modules afford video acquisitions of the river surface every 10 minutes. In this work, we establish a standard video-processing protocol by analyzing more than 10 Gb of footage data captured during low discharge regime from May 2nd to 11th, 2015, through particle tracking velocimetry (PTV). We show that good image-based velocity data can be obtained throughout the day – from 6 am to 8 pm – despite the challenging experimental settings (direct sunlight illumination, mirror-like river surface, and overlying bridge shadow). Further, we demonstrate that images captured with a 27° angle of view optical sensor lead to average velocity measurements in agreement with available radar data. Consistent with similar optical methods, PTV is not applicable in case of adverse illumination and at night; however, it is more robust for dishomogeneous distributions of floaters in the field of view.</jats:p> Surface flows from images: ten days of observations from the Tiber River gauge-cam station Hydrology Research
spellingShingle Tauro, Flavia, Salvatori, Simone, Hydrology Research, Surface flows from images: ten days of observations from the Tiber River gauge-cam station, Water Science and Technology
title Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_full Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_fullStr Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_full_unstemmed Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_short Surface flows from images: ten days of observations from the Tiber River gauge-cam station
title_sort surface flows from images: ten days of observations from the tiber river gauge-cam station
title_unstemmed Surface flows from images: ten days of observations from the Tiber River gauge-cam station
topic Water Science and Technology
url http://dx.doi.org/10.2166/nh.2016.302