Abstract
Although methods were proposed for eliminating sun glint effects from airborne and satellite images over coral reef environments, a method was not proposed previously for unmanned aerial vehicle (UAV) image data. De-glinting in UAV image analysis may improve coral distribution mapping accuracy result compared with an uncorrected image classification technique. The objective of this research was to determine accuracy of coral reef habitat classification maps based on glint correction methods proposed by Lyzenga et al., Joyce, Hedley et al., and Goodman et al.. The UAV imagery collected from the coral-dominated Pulau Bidong (Peninsular Malaysia) on 20 April 2016 was analyzed in this study. Images were pre-processed with the following two strategies: Strategy-1 was the glint removal technique applied to the whole image, while Strategy-2 used only the regions impacted by glint instead of the whole image. Accuracy measures for the glint corrected images showed that the method proposed by Lyzenga et al. following Strategy-2 could eliminate glints over the branching coral—Acropora (BC), tabulate coral—Acropora + Montipora (TC), patch coral (PC), coral rubble (R), and sand (S) with greater accuracy than the other four methods using Strategy-1. Tested in two different coral environments (Site-1: Pantai Pasir Cina and Site-2: Pantai Vietnam), the glint-removed UAV imagery produced reliable maps of coral habitat distribution with finer details. The proposed strategies can potentially be used to remove glint from UAV imagery and may improve usability of glint-affected imagery, for analyzing spatiotemporal changes of coral habitats from multi-temporal UAV imagery.
Highlights
Coral reef platforms support diverse marine organisms including soft and hard corals, invertebrates, and sponges
To assess how well the different glint correction methods performed in mapping benthic habitats, the results were quantitatively estimated based on the accuracy of the classification of the coral cover, and the products were qualitatively evaluated by visual inspection of RGB composites
A comparison of four glint correction algorithms when applied to high-resolution unmanned aerial vehicle (UAV) imagery following whole-image (Strategy-1) and glint-impacted (Strategy-2) strategies showed that images pre-processed with Strategy-2 using the method proposed by Lyzenga et al [35] performed better than the other methods, resulting in reliable maps of corals
Summary
Coral reef platforms support diverse marine organisms including soft and hard corals, invertebrates, and sponges. They provide many ecosystem services including revenue from fish and fisheries, tourism, and reproductive sites for turtles and birds in shallow coastal environments. Large-scale (tens of square kilometers) and fine-scale (detailed mapping using pixels
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