Recent advances in optical underwater imaging technologies enable the acquisition of huge numbers of high-resolution seafloor images during scientific expeditions. While these images contain valuable information for non-invasive monitoring of megabenthic fauna, flora and the marine ecosystem, traditional labor-intensive manual approaches for analyzing them are neither feasible nor scalable. Therefore, machine learning has been proposed as a solution, but training the respective models still requires substantial manual annotation. Here, we present an automated image-based workflow for Megabenthic Fauna Detection with Faster R-CNN (FaunD-Fast). The workflow significantly reduces the required annotation effort by automating the detection of an...
Digital imaging has become one of the most important techniques in environmental monitoring and expl...
State-of-the-art underwater imaging systems provide an exciting opportunity to observe billions of i...
With growing anthropogenic pressure on deep-sea ecosystems, large quantities of data are needed to u...
Schoening T, Bergmann M, Purser A, Dannheim J, Gutt J, Nattkemper TW. Semi-automated image analysis ...
Megafauna play an important role in benthic ecosystem function and are sensitive indicators of envir...
Since scientists began to study the ocean, they have had to develop new observational methods. Moder...
Megafauna play an important role in benthic ecosystem function and are sensitive indicators of envir...
Schoening T. Automated detection in benthic images for megafauna classification and marine resource ...
The performance of automated object detection and segmentation in marine imaging applications is sen...
Schoening T, Purser A, Langenkämper D, et al. Megafauna community assessment of polymetallic-nodule ...
An understanding of marine ecosystems and their biodiversity is relevant to sustainable use of the g...
Scientific surveys using underwater robots can recover a huge volume of seafloor imagery. For mappin...
Underwater imagery is widely used for a variety of applications in marine biology and environmental ...
Digital imaging has become one of the most important techniques in environmental monitoring and expl...
Digital imaging has become one of the most important techniques in environmental monitoring and expl...
Digital imaging has become one of the most important techniques in environmental monitoring and expl...
State-of-the-art underwater imaging systems provide an exciting opportunity to observe billions of i...
With growing anthropogenic pressure on deep-sea ecosystems, large quantities of data are needed to u...
Schoening T, Bergmann M, Purser A, Dannheim J, Gutt J, Nattkemper TW. Semi-automated image analysis ...
Megafauna play an important role in benthic ecosystem function and are sensitive indicators of envir...
Since scientists began to study the ocean, they have had to develop new observational methods. Moder...
Megafauna play an important role in benthic ecosystem function and are sensitive indicators of envir...
Schoening T. Automated detection in benthic images for megafauna classification and marine resource ...
The performance of automated object detection and segmentation in marine imaging applications is sen...
Schoening T, Purser A, Langenkämper D, et al. Megafauna community assessment of polymetallic-nodule ...
An understanding of marine ecosystems and their biodiversity is relevant to sustainable use of the g...
Scientific surveys using underwater robots can recover a huge volume of seafloor imagery. For mappin...
Underwater imagery is widely used for a variety of applications in marine biology and environmental ...
Digital imaging has become one of the most important techniques in environmental monitoring and expl...
Digital imaging has become one of the most important techniques in environmental monitoring and expl...
Digital imaging has become one of the most important techniques in environmental monitoring and expl...
State-of-the-art underwater imaging systems provide an exciting opportunity to observe billions of i...
With growing anthropogenic pressure on deep-sea ecosystems, large quantities of data are needed to u...