Litcius/Paper detail

Evaluation of Satellite-Derived Bathymetry from High and Medium-Resolution Sensors Using Empirical Methods

Evagoras Evagorou, Athanasios V. Argyriou, Nikos Papadopoulos, Christodoulos Mettas, George Alexandrakis, Diofantos Hadjimitsis

2022Remote Sensing50 citationsDOIOpen Access PDF

Abstract

This study evaluates the accuracy of bathymetric maps generated from multispectral satellite datasets acquired from different multispectral sensors, namely the Worldview 2, PlanetScope, and the Sentinel 2, in the bay of Elounda in Crete. Image pre-processing steps were implemented before the use of the three empirical methods for estimating bathymetry. A dedicated correction and median filter have been applied to minimize noise from the sun glint and the sea waves. Due to the spectral complexity of the selected study area, statistical correlation with different numbers of bands was applied. The analysis indicated that blue and green bands obtained the best results with higher accuracy. Then, three empirical models, namely the Single Band Linear Algorithm, the Multiband Linear Algorithm, and the Ratio Transform Algorithm, were applied to the three multispectral images. Bathymetric and error distribution maps were created and used for the error assessment of results. The accuracy of the bathymetric maps estimated from different empirical models is compared with on-site Single beam Echo Sounder measurements. The most accurate bathymetric maps were obtained using the WorldView 2 and the empirical model of the Ratio Transform algorithm, with the RMSE reaching 1.01 m.

Topics & Concepts

BathymetryMultispectral imageRemote sensingSatelliteMean squared errorGeologyComputer scienceAlgorithmMathematicsPhysicsStatisticsOceanographyAstronomyRemote Sensing and LiDAR ApplicationsRemote-Sensing Image ClassificationCoastal and Marine Dynamics