Litcius/Paper detail

<scp>BatNet</scp>: a deep learning‐based tool for automated bat species identification from camera trap images

Gabriella Krivek, Alexander Gillert, Martin Harder, Marcus Fritze, Karina Frankowski, Luisa Timm, Liska Meyer‐Olbersleben, Uwe Freiherr von Lukas, Gerald Kerth, Jaap van Schaik

2023Remote Sensing in Ecology and Conservation14 citationsDOIOpen Access PDF

Abstract

Abstract Automated monitoring technologies can increase the efficiency of ecological data collection and support data‐driven conservation. Camera traps coupled with infrared light barriers can be used to monitor temperate‐zone bat assemblages at underground hibernacula, where thousands of individuals of multiple species can aggregate in winter. However, the broad‐scale adoption of such photo‐monitoring techniques is limited by the time‐consuming bottleneck of manual image processing. Here, we present BatNet , an open‐source, deep learning‐based tool for automated identification of 13 European bat species from camera trap images. BatNet includes a user‐friendly graphical interface, where it can be retrained to identify new bat species or to create site‐specific models to improve detection accuracy at new sites. Model accuracy was evaluated on images from both trained and untrained sites, and in an ecological context, where community‐ and species‐level metrics (species diversity, relative abundance, and species‐level activity patterns) were compared between human experts and BatNet . At trained sites, model performance was high across all species (F1‐score: 0.98–1). At untrained sites, overall classification accuracy remained high (96.7–98.2%), when camera placement was comparable to the training images (&lt;3 m from the entrance; &lt;45° angle relative to the opening). For atypical camera placements (&gt;3 m or &gt;45° angle), retraining the detector model with 500 site‐specific annotations achieved an accuracy of over 95% at all sites. In the ecological case study, all investigated metrics were nearly identical between human experts and BatNet . Finally, we exemplify the ability to retrain BatNet to identify a new bat species, achieving an F1‐score of 0.99 while maintaining high classification accuracy for all original species. BatNet can be implemented directly to scale up the deployment of camera traps in Europe and enhance bat population monitoring. Moreover, the pretrained model can serve as a baseline for transfer learning to automatize the image‐based identification of bat species worldwide.

Topics & Concepts

Context (archaeology)Computer scienceCamera trapArtificial intelligenceBottleneckIdentification (biology)RetrainingPattern recognition (psychology)EcologyHabitatBiologyInternational tradeBusinessEmbedded systemPaleontologyBat Biology and Ecology StudiesSpecies Distribution and Climate ChangeAnimal Vocal Communication and Behavior