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Cohesive bank erosion processes identified from UAV imagery during an exceptional low water level event. / Duro, Gonzalo; Crosato, Alessandra; Kleinhans, MG; Uijttewaal, Wim.

2017. 170-170 Abstract from 10th Symposium on River coastal and estuarine morphodynamics, Trento - Padova, Italy.

Research output: Contribution to conferenceAbstractScientific

Harvard

Duro, G, Crosato, A, Kleinhans, MG & Uijttewaal, W 2017, 'Cohesive bank erosion processes identified from UAV imagery during an exceptional low water level event' 10th Symposium on River coastal and estuarine morphodynamics, Trento - Padova, Italy, 15/09/17 - 22/09/17, pp. 170-170.

APA

Duro, G., Crosato, A., Kleinhans, MG., & Uijttewaal, W. (2017). Cohesive bank erosion processes identified from UAV imagery during an exceptional low water level event. 170-170. Abstract from 10th Symposium on River coastal and estuarine morphodynamics, Trento - Padova, Italy.

Vancouver

Duro G, Crosato A, Kleinhans MG, Uijttewaal W. Cohesive bank erosion processes identified from UAV imagery during an exceptional low water level event. 2017. Abstract from 10th Symposium on River coastal and estuarine morphodynamics, Trento - Padova, Italy.

Author

Duro, Gonzalo ; Crosato, Alessandra ; Kleinhans, MG ; Uijttewaal, Wim. / Cohesive bank erosion processes identified from UAV imagery during an exceptional low water level event. Abstract from 10th Symposium on River coastal and estuarine morphodynamics, Trento - Padova, Italy.

BibTeX

@conference{69f20358204640288b9e2c52c357f076,
title = "Cohesive bank erosion processes identified from UAV imagery during an exceptional low water level event",
abstract = "The use of photogrammetry based on UAVs allows to survey long distances of riverbanks with a resolution capable of identifying detailed bank erosion features and quantifying retreat rates with an accuracy of centimetres. The identification of these features would be missed in slower and more expensive GPS profiling. Moreover, moving terrestrial laser scanning would require significant greater times and costs for comparable results.",
author = "Gonzalo Duro and Alessandra Crosato and MG Kleinhans and Wim Uijttewaal",
note = "Host publication:The 10th Symposium on River, Coastal and Estuarine Morphodynamics, Trento-Padova, 15-22 September 2017, Book of Abstracts Editors: Lanzoni, S., Redolfi, M., Zolezzi, G. ISBN (Print): 978-88-8443-752-5; 10th Symposium on River coastal and estuarine morphodynamics : Back to Italy, RCEM2017 ; Conference date: 15-09-2017 Through 22-09-2017",
year = "2017",
language = "English",
pages = "170--170",
url = "http://cirefluvial.com/eventos_ver.php?id=246",

}

RIS

TY - CONF

T1 - Cohesive bank erosion processes identified from UAV imagery during an exceptional low water level event

AU - Duro, Gonzalo

AU - Crosato, Alessandra

AU - Kleinhans, MG

AU - Uijttewaal, Wim

N1 - Host publication:The 10th Symposium on River, Coastal and Estuarine Morphodynamics, Trento-Padova, 15-22 September 2017, Book of Abstracts Editors: Lanzoni, S., Redolfi, M., Zolezzi, G. ISBN (Print): 978-88-8443-752-5

PY - 2017

Y1 - 2017

N2 - The use of photogrammetry based on UAVs allows to survey long distances of riverbanks with a resolution capable of identifying detailed bank erosion features and quantifying retreat rates with an accuracy of centimetres. The identification of these features would be missed in slower and more expensive GPS profiling. Moreover, moving terrestrial laser scanning would require significant greater times and costs for comparable results.

AB - The use of photogrammetry based on UAVs allows to survey long distances of riverbanks with a resolution capable of identifying detailed bank erosion features and quantifying retreat rates with an accuracy of centimetres. The identification of these features would be missed in slower and more expensive GPS profiling. Moreover, moving terrestrial laser scanning would require significant greater times and costs for comparable results.

M3 - Abstract

SP - 170

EP - 170

ER -

ID: 42133368