article / 28 July 2020

Automated Fish Identification and Abundance Using Artificial Intelligence

This exciting news article about The Global Wetland Project's FishID platform discusses the latest improvements and developments in using deep learning to identify individual fish species underwater. In addition to streamlining the analysis of data, the improved accuracy of this algorithm will also help maintain consistency in ongoing research projects which utilize this tool. Learn more about using FishID here. This article originally appeared on the GLOW blog.

Automated Fish Identification and Abundance Using Artificial Intelligence

by Ellen Ditria

fishID

While running video footage fresh from your underwater camera into a computer that automatically identifies species and determines abundance may seem like wishful thinking for ecologists, successes in recent research shows we’re close to having an accessible tool for researchers.

The use of camera technology in aquatic sciences has increase rapidly over the last few decades with the advent of digital imagery and miniturisation. From current uses of baited underwater cameras to marine drones and camera traps, more digital data are being collected as equipment becomes cheaper more accessible.

While we can now capture and share more data over larger temporal and spatial scales it has left us with a severe bottleneck of processing and analysing large volumes of data. Deep learning, a branch of machine learning, has emerged as a highly versatile and promising technology to solve this bottleneck problem.

In our recent study, we found that deep learning algorithms were able to detect and count a target species of fish (luderick) from raw video footage in seagrass habitats; faster, and with higher accuracy that human.

New blog on our latest research in automating the analysis of underwater videos in #seagrass habitats. https://t.co/EgWgYvlugd#deeplearning is a valuable tool for processing large image and video-based data, and has worked effectively in unconstrained underwater environments pic.twitter.com/ShUSTyUnFW

— Ellen Ditria (@eco_ell) June 29, 2020

When compared with a group of citizen scientists and a group of fish experts, the deep learning computer models were not only more accurate, but the results between individual models were also far more consistent than among individual humans and achieved in a fraction of the time.

The models and humans were presented with a set of 50 images from seagrass environments, and were asked to identify and count only the luderick in each image. The models achieved a performance of 95%, while experts achieved 88%, and citizen scientists on average lagged at 82%.

We also tested the performance of each analysis method on identifying and observing the MaxN for 32 videos. Surprisingly, the model again achieved the highest performance score (87%), even though the experts and citizen scientists (85% and 79% respectively) were expected to perform better as humans have the advantage of being able to draw from context and observe the fish back and forth over the course of the video, which the computer cannot.

Arguably more important than high accuracy, data analysis methods that are consistent in their answers are important for examining changes over time. The ability and confidence of individuals in analysing video footage varies widely, and long-term science and monitoring often needs to involve different individuals year after year while trying to collect data that may be used for trends and changes.

Our research has created a tool for scientists to simply upload their raw video footage the FishID platform (developed at Griffith University) to process and convert their image-based data to a usable CSV file output for further analysis.

Reducing the time needed to trawl through video footage means that more footage gets analysed, which can increase sample sizes and potentially enable scientists to analysis more data over space and time.

This article originally appeared on the GLOW blog here. Find more news and articles from GLOW by visiting their website.


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