Detection of the Deep-Sea Plankton Community in Marine Ecosystem with Underwater Robotic Platform

Abstract: Variations in the quantity of plankton impact the entire marine ecosystem. It is of great significance to accurately assess the dynamic evolution of the plankton for monitoring the marine environment and global climate change. In this paper, a novel method is introduced for deep-sea plankton community detection in marine ecosystem using an underwater robotic platform. The videos were sampled at a distance of 1.5 m from the ocean floor, with a focal length of 1.5–2.5 m. The optical flow field is used to detect … Show more

“…The other two papers in this group relate to underwater robotic inspection applications. Wang et al [ 8 ] present a novel method for use in deep-sea plankton community detection in marine ecosystems using an underwater robotic platform. This paper demonstrates that moving plankton can be accurately detected and isolated from complex dynamic backgrounds in deep-sea environments.…”

Robotic Non-Destructive Testing

“…The other two papers in this group relate to underwater robotic inspection applications. Wang et al [ 8 ] present a novel method for use in deep-sea plankton community detection in marine ecosystems using an underwater robotic platform. This paper demonstrates that moving plankton can be accurately detected and isolated from complex dynamic backgrounds in deep-sea environments.…”

Robotic Non-Destructive Testing