An intelligent and cost-effective remote underwater video device for fish size monitoring

Coro G., Bjerregaard Walsh M.

Computer vision  Biodiversity conservation  Fish size  Baited remote underwater video  Artificial intelligence  Deep learning  Unsupervised modelling  Motion detection 

Monitoring the size of key indicator species of fish is important to understand ecosystem functions, anthropogenic stress, and population dynamics. Standard methodologies gather data using underwater cameras, but are biased due to the use of baits, limited deployment time, and short field of view. Furthermore, they require experts to analyse long videos to search for species of interest, which is time consuming and expensive. This paper describes the Underwater Detector of Moving Object Size (UDMOS), a cost-effective computer vision system that records events of large fishes passing in front of a camera, using minimalistic hardware and power consumption. UDMOS can be deployed underwater, as an unbaited system, and is also offered as a free-to-use Web Service for batch video-processing. It embeds three different alternative large-object detection algorithms based on deep learning, unsupervised modelling, and motion detection, and can work both in shallow and deep waters with infrared or visible light.

Source: Ecological informatics (Print) 63 (2021). doi:10.1016/j.ecoinf.2021.101311

Publisher: Elsevier, Amsterdam , Paesi Bassi

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