Abstract
Underwater Optical Wireless Communication (UWOC) stands as a pivotal technology in the realm of data transmission in challenging aquatic environments. Despite its importance, UWOC systems grapple with a plethora of interference issues that have the potential to severely compromise their performance. This abstract delves into the realm of anti-interference techniques in the domain of UWOC, with a particular focus on the utilization of signal processing methods. The narrative commences by underscoring the significance of UWOC systems and the vast array of applications they support, spanning diverse fields such as oceanography, environmental monitoring, and underwater exploration. This underscores the pressing need for robust solutions to mitigate the various forms of interference that can hinder effective data transmission in underwater scenarios. The article proceeds by introducing the various types of UWOC and delves into their current research status, with a specific emphasis on the ongoing evolution and emerging trends in the UWOC field. It then provides detailed insights into several prevalent UWOC positioning methods, outlining their distinct characteristics and the specific application contexts where they excel. Additionally, the article highlights the existing challenges and prospects for the future development of UWOC positioning technology, intending to offer valuable guidance to prospective researchers in this dynamic and critical area of underwater communication.
Published Version
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