Data underlying the publication: Automatic discard registration in cluttered environments using deep learning and object tracking: class imbalance, occlusion, and a comparison to human review
DOI:10.4121/16622566.v1
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DOI: 10.4121/16622566
DOI: 10.4121/16622566
Datacite citation style
Rick Essen, van; Arjan Vroegop; A. (Angelo) Mencarelli; Aloysius van Helmond; Linh Nyugen et. al. (2021): Data underlying the publication: Automatic discard registration in cluttered environments using deep learning and object tracking: class imbalance, occlusion, and a comparison to human review. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/16622566.v1
Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite
Dataset
Usage statistics
1457
views
773
downloads
Geolocation
North Sea
Time coverage October 2019
Licence CC BY 4.0
Interoperability
by
Rick Essen, van,
Arjan Vroegop,
A. (Angelo) Mencarelli
,
Aloysius van Helmond,
Linh Nyugen,
Jurgen Batsleer
,
J.J. (Jan Jaap) Poos
,
Gert Kootstra
,
Aloysius van Helmond,
Linh Nyugen,
Jurgen Batsleer
,
J.J. (Jan Jaap) Poos
,
Gert Kootstra
Data for training and evaluation of a method for detection and counting demersal fish species in complex, cluttered and occluded environments that can be installed on the
conveyor belts of fishing vessels. The data mainly exists of images of fish on a conveyer belt with the corresponding annotations. This was used to train a neural network (YOLOv3) to detect and classify fish species. Because each fish is visible in multiple images, the fishes were tracked over consecutive images and the total number of fish per specie was counted. These counts were compared to human review.
conveyor belts of fishing vessels. The data mainly exists of images of fish on a conveyer belt with the corresponding annotations. This was used to train a neural network (YOLOv3) to detect and classify fish species. Because each fish is visible in multiple images, the fishes were tracked over consecutive images and the total number of fish per specie was counted. These counts were compared to human review.
History
- 2021-10-26 first online, published, posted
Publisher
4TU.ResearchDataFormat
json ptAssociated peer-reviewed publication
Automatic discard registration in cluttered environments using deep learning and object tracking: class imbalance, occlusion, and a comparison to human reviewOrganizations
Farm Technology Group, Wageningen University and Research;Greenhouse Horticulture Unit, Wageningen University and Research;
Wageningen Marine Research, Wageningen University and Research;
Aquaculture and Fisheries, Wageningen University and Research
DATA
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- 5,906 bytesMD5:
68d3633792b4911d3d0a5d9dd2cc9a3bREADME.txt - 93,991,339 bytesMD5:
6201653fc3c72bea7c1f27ec657176e8automatic_discard_registration-master.zip - 999,882,726 bytesMD5:
5f709224eb2310de852cdcb91083179eEM_video.zip - 48,056,322,540 bytesMD5:
d00efc8d6c13dfbf09754a64c44c42aefdf_images.zip - 1,171,551,347 bytesMD5:
5c8911014418cbe650e7d2e405cbec70results.zip -
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