Article

Ship detection with spectral analysis of synthetic aperture radar: A comparison of new and well-known algorithms

Details

Citation

Marino A, Sanjuan-Ferrer MJ, Hajnsek I & Ouchi K (2015) Ship detection with spectral analysis of synthetic aperture radar: A comparison of new and well-known algorithms. Remote Sensing, 7 (5), pp. 5416-5439. https://doi.org/10.3390/rs70505416

Abstract
The surveillance of maritime areas with remote sensing is vital for security reasons, as well as for the protection of the environment. Satellite-borne synthetic aperture radar (SAR) offers large-scale surveillance, which is not reliant on solar illumination and is rather independent of weather conditions. The main feature of vessels in SAR images is a higher backscattering compared to the sea background. This peculiarity has led to the development of several ship detectors focused on identifying anomalies in the intensity of SAR images. More recently, different approaches relying on the information kept in the spectrum of a single-look complex (SLC) SAR image were proposed. This paper is focused on two main issues. Firstly, two recently developed sub-look detectors are applied for the first time to ship detection. Secondly, new and well-known ship detection algorithms are compared in order to understand which has the best performance under certain circumstances and if the sub-look analysis improves ship detection. The comparison is done on real SAR data exploiting diversity in frequency and polarization. Specifically, the employed data consist of six RADARSAT-2 fine quad-polacquisitions over the North Sea, five TerraSAR-X HH/VV dual-polarimetric data-takes, also over the North Sea, and one ALOS-PALSAR quad-polarimetric dataset over Tokyo Bay. Simultaneously to the SAR images, validation data were collected, which include the automatic identification system (AIS) position of ships and wind speeds. The results of the analysis show that the performance of the different sub-look algorithms considered here is strongly dependent on polarization, frequency and resolution. Interestingly, these sub-look detectors are able to outperform the classical SAR intensity detector when the sea state is particularly high, leading to a strong clutter contribution. It was also observed that there are situations where the performance improvement thanks to the sub-look analysis is not so noticeable.

Keywords
Ship detection; sub-look analysis; SAR;

Journal
Remote Sensing: Volume 7, Issue 5

StatusPublished
Publication date31/05/2015
Publication date online30/04/2015
Date accepted by journal03/04/2015
URLhttp://hdl.handle.net/1893/27759
eISSN2072-4292

People (1)

Dr Armando Marino

Dr Armando Marino

Associate Professor, Biological and Environmental Sciences

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