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Synthetic Aperture Radar (SAR) for Ocean: A Review
Summary
This review covers how Synthetic Aperture Radar (SAR) satellite systems are used to monitor ocean conditions, including waves, currents, oil spills, and sea ice. While not directly about microplastics, SAR technology is increasingly being explored as a tool for detecting large-scale plastic pollution in the ocean. The remote sensing methods described could eventually contribute to tracking and mapping microplastic contamination across vast ocean areas.
Oceans cover approximately 71% of the Earth's surface and provide numerous services to the environment and humans. Precise, real-time, and large-scale monitoring of the oceanographic parameters is essential for ocean conservation and understanding the interactions between oceans and the atmosphere. In this regard, Synthetic Aperture Radar (SAR) systems, with unique capabilities (e.g., day-night and almost all-weather data acquisition), provide valuable datasets for ocean studies. Many studies have exploited the applications of SAR imagery for oceans and have proposed numerous methods to study oceanographic parameters. In this study, a brief introduction to SAR and the interaction between microwave signals and the ocean surface are initially provided. Then, the important spaceborne and airborne SAR systems for oceanographic applications are summarized. Subsequently, 12 different applications of SAR systems in the ocean are comprehensively discussed, and the advantages and disadvantages of SAR systems for ocean studies are extensively explored. Finally, the research trend on SAR applications in the ocean is provided by analyzing all the relevant papers published between 1973 and the end of December 2022, and the existing challenges are discussed for future studies.
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