Demonstrating the Potential of Low-Cost GPS Units for the Remote Measurement of Tides and Water Levels Using Interferometric Reflectometry

Abstract A low-cost [$30 (U.S. dollars)] consumer grade GPS receiver with a sideways-mounted antenna has been applied to measure tidal water levels at a mesotidal coastal site using an interferometric reflectometry approach. The proof-of-concept system was installed approximately 16 m above mean sea...

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Bibliographic Details
Published inJournal of atmospheric and oceanic technology Vol. 37; no. 10; pp. 1925 - 1935
Main Authors Williams, Simon D. P., Bell, Paul S., McCann, David L., Cooke, Richard, Sams, Christine
Format Journal Article
LanguageEnglish
Published Boston American Meteorological Society 01.10.2020
Subjects
Antennas
Calibration
Data
Environmental monitoring
Gauges
Global positioning systems
GPS
Interferometry
Low cost
Mean sea level
Oscillations
Quality control
Receivers
Receivers & amplifiers
Reflectometry
Satellites
Sea level
Signal to noise ratio
Spring tides
Tidal range
Tide gauges
Tides
Tidewater
Vandalism
Water levels
United States > US
Ireland
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Summary:Abstract A low-cost [$30 (U.S. dollars)] consumer grade GPS receiver with a sideways-mounted antenna has been applied to measure tidal water levels at a mesotidal coastal site using an interferometric reflectometry approach. The proof-of-concept system was installed approximately 16 m above mean sea level in close proximity to a conventional bubbler tide gauge that provided validation data. The received signal-to-noise ratios (SNR) for the satellites in view were recorded for several months during two successive years and the observed frequencies of the interferometric oscillations used to calculate the difference in elevation between the receiver and the water surface. Comparisons with concurrent and historic in situ tide gauge data at the site initially helped to identify a calibration issue with the in situ gauge. The GPS-based measurements were shown to be in excellent agreement with the corrected in situ gauge, exhibiting a root-mean-square difference of 5.7 cm over a tidal range exceeding 3 m at spring tides and a daily averaged RMS of 1.7 cm. The SNR data from the low-cost GPS receivers are shown to provide significantly higher-quality data for this purpose compared with high-end geodetic grade receivers at similar sites. This low-cost, widely available technology has the potential to be applied globally for monitoring water levels in a wide variety of circumstances and applications that would otherwise be cost or situation prohibitive. It could also be applied as an independent cross check and quality control measure for conventional water-level gauges.
ISSN:0739-0572
1520-0426
DOI:10.1175/JTECH-D-20-0063.1