Abstract
Coastal erosion, which is naturally present in many areas of the world, can be significantly increased by factors such as the reduced transport of sediments as a result of hydraulic works carried out to minimize flooding. Erosion has a significant impact on both marine ecosystems and human activities; for this reason, several international projects have been developed to study monitoring techniques and propose operational methodologies. The increasing number of available high-resolution satellite platforms (i.e., Copernicus Sentinel) and algorithms to treat them allows the study of original approaches for the monitoring of the land in general and for the study of the coastline in particular. The present project aims to define a methodology for identifying the instantaneous shoreline, through images acquired from the WorldView 2 satellite, on eight spectral bands, with a geometric resolution of 0.5 m for the panchromatic image and 1.8 m for the multispectral one. A pixel-based classification methodology is used to identify the various types of land cover and to make combinations between the eight available bands. The experiments were carried out on a coastal area with contrasting morphologies. The eight bands in which the images are taken produce good results both in the classification process and in the combination of the bands, through the algorithms of normalized difference vegetation index (NDVI), normalized difference water index (NDWI), spectral angle mapper (SAM), and matched filtering (MF), with regard to the identification of the various soil coverings and, in particular, the separation line between dry and wet sand. In addition, the real applicability of an algorithm that extracts bathymetry in shallow water using the “coastal blue” band was tested. These data refer to the instantaneous shoreline and could be corrected in the future with morphological and tidal data of the coastal areas under study.
Highlights
The coastal environment is an extraordinary natural and economic resource that is subject to continuous transformation
The coastal area is a highly dynamic system where erosion and deposition are influenced by various factors, including meteorological, biological, geological, and anthropogenic factors
It has been noted that the most significant and potentially incorrect assumption in many shoreline investigations is that the instantaneous shoreline represents
Summary
The coastal environment is an extraordinary natural and economic resource that is subject to continuous transformation. The concept is very simple and intuitive, but its application is a complex task because of the temporal variability of the coastline itself. This variability develops on scales profoundly different, from instantaneous to secular variations, and it depends on various factors including wave motion, tides, winds, erosion, and deposition. AA wwiiddee vvaarriieettyy ooff mmeetthhooddoollooggiieess hhaavvee bbeeeenn uusseedd [[77––1100]] tthhaatt ccaann bbee ssuummmmaarriizzeedd mmaaiinnllyy iinn tthhee ffoolllloowwiinngg:: 1. 1. Photogrammetry/videography from airplane or UAV: In the first case, this is a matter of using the well-known techniques of photogrammetry from single acquisitions of aerial images that are currently almost all digital images; digital cameras can acquire films that can be treated with classical photogrammetric algorithms or with new approaches such as structure from motion (SFM) [11,12]
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