Hydrographic survey of a south Florida canal using a hydrolite

Hydrographic survey of a south Florida canal using a hydrolite

In this study, a hydrographic map of a South Florida canal is prepared using RTK GPS (Real Time Kinematic Global Positioning System) measurements combined with a hydrolite (single beam echo sounder). RTK GPS measurements are made using both single RTK and Network RTK systems. Digital sounding measur...

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Bibliographic Details
Main Authors: Berber M., Wright W.
Format: Article
Language:English
Published: Sciendo 2017-02-01
Series:Journal of Geodetic Science
Subjects:
global navigation satellite system
hydrographic surveys
network rtk
real-time kinematic method
sonar.
Online Access:https://doi.org/10.1515/jogs-2017-0009
id doaj-ff85e3b7a54f4ba48010b28474bd62f9
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spelling doaj-ff85e3b7a54f4ba48010b28474bd62f92021-09-06T19:40:46ZengSciendoJournal of Geodetic Science2081-99432017-02-0171798310.1515/jogs-2017-0009jogs-2017-0009Hydrographic survey of a south Florida canal using a hydroliteBerber M.0Wright W.1Dept. of Civil and Geomatics Engineering, California State University, Fresno, CA, United States of AmericaDept. of Geosciences, Florida Atlantic University, Boca Raton, FL, United States of AmericaIn this study, a hydrographic map of a South Florida canal is prepared using RTK GPS (Real Time Kinematic Global Positioning System) measurements combined with a hydrolite (single beam echo sounder). RTK GPS measurements are made using both single RTK and Network RTK systems. Digital sounding measurements taken by hydrolite are compared to manual lead line measurements. Single RTK and Network RTK results differed in the order of tenth of a foot accuracy for horizontal coordinates and for height measurements variations can go up to several tenths. Sounding results indicate a best-fit trend line with a slope of 0.993, and an R squared value of 0.972, demonstrating that hydrolite measurements and manually collected depths at this site are well correlated.https://doi.org/10.1515/jogs-2017-0009global navigation satellite systemhydrographic surveysnetwork rtkreal-time kinematic methodsonar.
collection DOAJ
language English
format Article
sources DOAJ
author Berber M.
Wright W.
spellingShingle Berber M.
Wright W.
Hydrographic survey of a south Florida canal using a hydrolite
Journal of Geodetic Science
global navigation satellite system
hydrographic surveys
network rtk
real-time kinematic method
sonar.
author_facet Berber M.
Wright W.
author_sort Berber M.
title Hydrographic survey of a south Florida canal using a hydrolite
title_short Hydrographic survey of a south Florida canal using a hydrolite
title_full Hydrographic survey of a south Florida canal using a hydrolite
title_fullStr Hydrographic survey of a south Florida canal using a hydrolite
title_full_unstemmed Hydrographic survey of a south Florida canal using a hydrolite
title_sort hydrographic survey of a south florida canal using a hydrolite
publisher Sciendo
series Journal of Geodetic Science
issn 2081-9943
publishDate 2017-02-01
description In this study, a hydrographic map of a South Florida canal is prepared using RTK GPS (Real Time Kinematic Global Positioning System) measurements combined with a hydrolite (single beam echo sounder). RTK GPS measurements are made using both single RTK and Network RTK systems. Digital sounding measurements taken by hydrolite are compared to manual lead line measurements. Single RTK and Network RTK results differed in the order of tenth of a foot accuracy for horizontal coordinates and for height measurements variations can go up to several tenths. Sounding results indicate a best-fit trend line with a slope of 0.993, and an R squared value of 0.972, demonstrating that hydrolite measurements and manually collected depths at this site are well correlated.
topic global navigation satellite system
hydrographic surveys
network rtk
real-time kinematic method
sonar.
url https://doi.org/10.1515/jogs-2017-0009
work_keys_str_mv AT berberm hydrographicsurveyofasouthfloridacanalusingahydrolite
AT wrightw hydrographicsurveyofasouthfloridacanalusingahydrolite
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