Abstract
Abstract. The coastal environment is among the most fragile regions on our planet. Its efficient monitoring is crucial to properly manage human and natural resources located in this environment where a large portion of our population lives. The objective of this contribution is to design and develop a new set of methods suitable for detecting and tracking the coastline. Synthetic aperture radar (SAR) technology is chosen because of the characteristic response from water and the acquisition consistency allowed by constant illumination, day-and-night, and all-weather functioning. The proposed iterative detection method is based on superpixel segmentation. The resulting superpixels are filtered and then partitioned in land and water classes based on their median backscattering with Otsu’s algorithm. The rationale is that the segmentation can follow the coastline before the filtering can degrade the spatial resolution. A quantitative assessment of the results measures the distance to a manually-detected shoreline for the Lizard Island case study; the average distance is 12.63 m, with 80% of the sampled points within 20 m. The innovative coastline monitoring process exploits the consistency of SAR by analyzing a long time series. After a season-wise grouping, the land-water index is introduced to erase the time oscillation of water backscattering caused by different sea states. The proposed index is modeled in time on a pixel basis. A visualization technique that exploits the HSV codification of the color space highlights where and when changes happened. A case study for this technique is carried out over the Reentrancias Maranhenses natural area. A quality assessment shows good accordance with optical data that depicts the region’s dynamic.
Highlights
The coasts are the highly dynamical areas that define the boundary between land and water, be it an ocean, a sea, or a lake (Turner et al, 1998)
Different algorithms for superpixel segmentation are available in literature, and some of those were tested like Quickshift (Vedaldi and Soatto, 2008) and Felzenszwalb (Felzenszwalb and Huttenlocher, 2004), but the best suited for Synthetic aperture radar (SAR) single-channel scenes is the simple linear iterative clustering (SLIC)
In this work we propose the introduction of the normalized land water index (NLWI)
Summary
The coasts are the highly dynamical areas that define the boundary between land and water, be it an ocean, a sea, or a lake (Turner et al, 1998). This region hosts crucial infrastructures, ecosystems, and about 40% of the world’s global human population (Martinez et al, 2007). Many in-situ methods for shore(line) monitoring are adopted, such as direct measuring of distances (Ferreira et al, 2006) and laser monitoring, cameras, and aerial photogrammetry This kind of high-resolution data helps in the understanding of the coastal dynamic. Revisit intervals of the European Space Agency (ESA) constellation Sentinel-1 are between 1 and 3 days depending on the latitude of the scene and suitable for consistent monitoring
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