Study explores the use of robots and artificial intelligence to understand the deep-sea

Study explores the use of robots and artificial intelligence to understand the deep-sea
A large starfish (possibly a species of the genus Hymenaster). This animal is rare and only seen a handful of times. Credit: University of Plymouth

Artificial intelligence (AI) could help scientists shed new light on the variety of species living on the ocean floor, according to new research led by the University of Plymouth.

With increasing threats facing the marine environment, scientists desperately need more information about what inhabits the seabed in order to inform conservation and biodiversity management.

Autonomous underwater vehicles (AUV) mounted with the latest cameras are now able to collect vast amounts of data, but a bottleneck is still created by humans having to process it.

In a new study published in Marine Ecology Progress Series, marine scientists and robotics experts tested the effectiveness of a computer vision (CV) system in potentially fulfilling that role.

They showed on average it is around 80% accurate in identifying various animals in images of the seabed, but can be up to 93% accurate for specific species if enough data is used to train the algorithm.

This, scientists say, demonstrates CV could soon be routinely employed to study and plants and lead to a major increase in data availability for conservation research and biodiversity management.

Ph.D. student Nils Piechaud, lead author on the study, said: "Autonomous vehicles are a vital tool for surveying large areas of the seabed deeper than 60m (the depth most divers can reach). But we are currently not able to manually analyse more than a fraction of that data. This research shows AI is a promising tool but our AI classifier would still be wrong one out of five times, if it was used to identify animals in our images.

Study explores the use of robots and artificial intelligence to understand the deep-sea
A ray swimming away from the vehicle. The grey ball, left of the ray, is a xenophyophore - the largest known single-celled organism on the planet. Credit: University of Plymouth

"This makes it an important step forward in dealing with the huge amounts of data being generated from the , and shows it can help speed up analysis when used for detecting some species. But we are not at the point of considering it a suitable complete replacement for humans at this stage."

The study was conducted as part of Deep Links, a funded by the Natural Environment Research Council, and led by the University of Plymouth, in collaboration with Oxford University, British Geological Survey and the Joint Nature Conservation Committee.

One of the UK's national AUVs—Autosub6000, deployed in May 2016—collected more than 150,000 images in a single dive from around 1200m beneath the ocean surface on the north-east side of Rockall Bank, in the North East Atlantic. Around 1,200 of these images were manually analysed, containing 40,000 individuals of 110 different kinds of animals (morphospecies), most of them only seen a handful of times.

Researchers then used Google's Tensorflow, an open access library, to teach a pre-trained Convolutional Neural Network (CNN) to identify individuals of various deep-sea morphospecies found in the AUV images. They then assessed how the CNN performed when trained with different numbers of example images of animals, and different of numbers of morphospecies to choose from.

The accuracy of manual annotation by humans can range from 50 to 95%, but this method is slow and even specialists are very inconsistent across time and research teams. This automated method reached around 80% accuracy, approaching the performance of humans with a clear speed and consistency advantage.

This animation shows how underwater autonomous vehicles might be used to assess life on the sea-bed. Credit: University of Plymouth

This is particularly true for some morphospecies that the algorithms work very well with. For example, the model correctly identifies one animal (a type of xenophyophore) 93% of the time.

While the study does not advocate the replacement of manual annotation, it does demonstrate that marine biologists could be able to implement AI for specific tasks if carefully assessing the reliability of their predictions. This would greatly enhance the capacity of scientists to analyse their data.

The researchers say the combination of specialist ecological knowledge with the high-tech AUV's capacity to survey large areas of the seabed, and the fast data processing capacity of AI, could greatly speed up deep-ocean exploration, and with it our wider understanding of ecosystems.

Dr. Kerry Howell, Associate Professor in Marine Ecology and Principal Investigator for the Deep Links project, added: "Most of our planet is deep sea, a vast area in which we have equally large knowledge gaps. With increasing pressures on the including climate change, it is imperative that we understand our oceans and the habitats and species found within them. In the age of robotic and autonomous vehicles, big data, and global open research, the development of AI tools with the potential to help speed up our acquisition of knowledge is an exciting and much needed advance."


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More information: N Piechaud et al, Automated identification of benthic epifauna with computer vision, Marine Ecology Progress Series (2019). DOI: 10.3354/meps12925
Journal information: Marine Ecology Progress Series

Citation: Study explores the use of robots and artificial intelligence to understand the deep-sea (2019, May 10) retrieved 21 October 2019 from https://phys.org/news/2019-05-explores-robots-artificial-intelligence-deep-sea.html
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