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Underwater Fish Detection with Weak Multi-Domain Supervision
Given a sufficiently large training dataset, it is relatively easy to train a
modern convolution neural network (CNN) as a required image classifier.
However, for the task of fish classification and/or fish detection, if a CNN
was trained to detect or classify particular fish species in particular
background habitats, the same CNN exhibits much lower accuracy when applied to
new/unseen fish species and/or fish habitats. Therefore, in practice, the CNN
needs to be continuously fine-tuned to improve its classification accuracy to
handle new project-specific fish species or habitats. In this work we present a
labelling-efficient method of training a CNN-based fish-detector (the Xception
CNN was used as the base) on relatively small numbers (4,000) of project-domain
underwater fish/no-fish images from 20 different habitats. Additionally, 17,000
of known negative (that is, missing fish) general-domain (VOC2012) above-water
images were used. Two publicly available fish-domain datasets supplied
additional 27,000 of above-water and underwater positive/fish images. By using
this multi-domain collection of images, the trained Xception-based binary
(fish/not-fish) classifier achieved 0.17% false-positives and 0.61%
false-negatives on the project's 20,000 negative and 16,000 positive holdout
test images, respectively. The area under the ROC curve (AUC) was 99.94%.Comment: Published in the 2019 International Joint Conference on Neural
Networks (IJCNN-2019), Budapest, Hungary, July 14-19, 2019,
https://www.ijcnn.org/ , https://ieeexplore.ieee.org/document/885190
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