期刊
ICES JOURNAL OF MARINE SCIENCE
卷 77, 期 4, 页码 1330-1339出版社
OXFORD UNIV PRESS
DOI: 10.1093/icesjms/fsz216
关键词
convolutional neural networks; deep learning; fish size estimation; landings
资金
- Fundacion Biodiversidad, through the Pleamar Program [2017/2279, 2018/2002]
- MINECO/AEI/FEDERUE [TIN2017-85572-P, DPI2017-86372-C3-3-R]
- OPMALLORCAMAR
- Direccio General de Pesca del Govern de les Illes Balears
The dynamics of fish length distribution is a key input for understanding the fish population dynamics and taking informed management decisions on exploited stocks. Nevertheless, in most fisheries, the length of landed fish is still made by hand. As a result, length estimation is precise at fish level, but due to the inherent high costs of manual sampling, the sample size tends to be small. Accordingly, the precision of population-level estimates is often suboptimal and prone to bias when properly stratified sampling programmes are not affordable. Recent applications of artificial intelligence to fisheries science are opening a promising opportunity for the massive sampling of fish catches. Here, we present the results obtained using a deep convolutional network (Mask R-CNN) for unsupervised (i.e. fully automatic) European hake length estimation from images of fish boxes automatically collected at the auction centre. The estimated mean of fish lengths at the box level is accurate; for average lengths ranging 20-40 cm, the root-mean-square deviation was 1.9 cm, and maximum deviation between the estimated and the measured mean body length was 4.0 cm. We discuss the challenges and opportunities that arise with the use of this technology to improve data acquisition in fisheries.
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