Litcius/Paper detail

Beach Deployment of a Low-Cost GNSS Buoy for Determining Sea-Level and Wave Characteristics

Philip J. Knight, Cai Bird, A. R. Sinclair, Jonathan Higham, Andy Plater

2021Geosciences10 citationsDOIOpen Access PDF

Abstract

Spatially explicit data on tidal and waves are required as part of coastal monitoring applications (e.g., radar monitoring of coastal change) for the design of interventions to mitigate the impacts of climate change. A deployment over two tidal cycles of a low-cost Global Navigation Satellite System (GNSS) buoy at Rossall (near Fleetwood), UK demonstrated the potential to record good quality sea level and wave data within the intertidal zone. During each slack water and the following ebb tide, the sea level data were of good quality and comparable with data from nearby tide gauges on the national tide gauge network. Moreover, the GNSS receiver was able to capture wave information and these compared well with data from a commercial wave buoy situated 9.5 km offshore. Discontinuities were observed in the elevation data during flood tide, coincident with high accelerations and losing satellite signal lock. These were probably due to strong tidal currents, which, combined with spilling waves, would put the mooring line under tension and allow white water to spill over the antenna resulting in the periodic loss of GNSS signals, hence degrading the vertical solutions.

Topics & Concepts

Tide gaugeBuoyGNSS applicationsWave heightMooringGeologyEnvironmental scienceMeteorologyGeodesyRemote sensingOceanographyGlobal Positioning SystemSea levelEngineeringGeographyTelecommunicationsCoastal and Marine DynamicsOcean Waves and Remote SensingOceanographic and Atmospheric Processes