PeerJ (Aug 2022)

Accurate image-based identification of macroinvertebrate specimens using deep learning—How much training data is needed?

  • Toke T. Høye,
  • Mads Dyrmann,
  • Christian Kjær,
  • Johnny Nielsen,
  • Marianne Bruus,
  • Cecilie L. Mielec,
  • Maria S. Vesterdal,
  • Kim Bjerge,
  • Sigurd A. Madsen,
  • Mads R. Jeppesen,
  • Claus Melvad

DOI
https://doi.org/10.7717/peerj.13837
Journal volume & issue
Vol. 10
p. e13837

Abstract

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Image-based methods for species identification offer cost-efficient solutions for biomonitoring. This is particularly relevant for invertebrate studies, where bulk samples often represent insurmountable workloads for sorting, identifying, and counting individual specimens. On the other hand, image-based classification using deep learning tools have strict requirements for the amount of training data, which is often a limiting factor. Here, we examine how classification accuracy increases with the amount of training data using the BIODISCOVER imaging system constructed for image-based classification and biomass estimation of invertebrate specimens. We use a balanced dataset of 60 specimens of each of 16 taxa of freshwater macroinvertebrates to systematically quantify how classification performance of a convolutional neural network (CNN) increases for individual taxa and the overall community as the number of specimens used for training is increased. We show a striking 99.2% classification accuracy when the CNN (EfficientNet-B6) is trained on 50 specimens of each taxon, and also how the lower classification accuracy of models trained on less data is particularly evident for morphologically similar species placed within the same taxonomic order. Even with as little as 15 specimens used for training, classification accuracy reached 97%. Our results add to a recent body of literature showing the huge potential of image-based methods and deep learning for specimen-based research, and furthermore offers a perspective to future automatized approaches for deriving ecological data from bulk arthropod samples.

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