Abstract
Reliable, accurate, and timely information about oceans is important for many applications, including water resource management, hydrological cycle monitoring, environmental studies, agricultural and ecosystem health applications, economy, and the overall health of the environment. In this regard, remote sensing (RS) systems offer exceptional advantages for mapping and monitoring various oceanographic parameters with acceptable temporal and spatial resolutions over the oceans and coastal areas. So far, different methods have been developed to study oceans using various RS systems. This urges the necessity of having review studies that comprehensively discuss various RS systems, including passive and active sensors, and their advantages and limitations for ocean applications. In this article, the goal is to review most RS systems and approaches that have been worked on marine applications. This review paper is divided into two parts. Part 1 is dedicated to the passive RS systems for ocean studies. As such, four primary passive systems, including optical, thermal infrared radiometers, microwave radiometers, and Global Navigation Satellite Systems, are comprehensively discussed. Additionally, this article summarizes the main passive RS sensors and satellites, which have been utilized for different oceanographic applications. Finally, various oceanographic parameters, which can be retrieved from the data acquired by passive RS systems, along with the corresponding methods, are discussed.
Highlights
OCEANs, which contain nearly 97% of Earth's water, provide many benefits to the environment and human [1].For example, oceans produce the furthermost oxygen and absorb carbon dioxide much more than the atmosphere (50 times) to balance climate [2]
It is worth noting that since the main objective of this study is to discuss the characteristics of various Remote Sensing (RS) systems in oceans, the applications are not discussed in details and several references are provided for each application to read more
The statistical results showed no significant difference between the HY-2A scatterometer and WindSat Ocean Surface Wind (OSW) speed products, where the difference was considerable in the OSW direction
Summary
OCEANs, which contain nearly 97% of Earth's water, provide many benefits to the environment and human [1]. Considering the benefits of ocean environments, it is important to effectively monitor them using advanced technologies In this regard, different Remote Sensing (RS, see Table A for the list of acronyms) systems provide valuable, consistent, and frequent datasets for various applications over oceans and coastal areas [5]. There is not currently a literature review paper which comprehensively discusses the characteristics and applications of different RS systems for oceans. In this study, detailed discussions are provided about different RS systems, which can be employed for various ocean studies. It is worth noting that since the main objective of this study is to discuss the characteristics of various RS systems in oceans, the applications are not discussed in details and several references are provided for each application to read more
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