Automatic Camera-Trap Classification Using Wildlife-Specific Deep Learning in Nilgai Management

Camera traps provide a low-cost approach to collect data and monitor wildlife across large scales but hand-labeling images at a rate that outpaces accumulation is difficult. Deep learning, a subdiscipline of machine learning and computer science, can address the issue of automatically classifying ca...

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Bibliographic Details
Published in:Journal of fish and wildlife management 2021-12, Vol.12 (2), p.412-421
Main Authors: Kutugata, Matthew, Baumgardt, Jeremy, Goolsby, John A, Racelis, Alexis E
Format: Article
Language:English
Subjects:
Accuracy
Animals
Cameras
Data collection
Deep learning
Image classification
Image processing
Machine learning
Methods
Technology application
Wildlife conservation
Wildlife management
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Summary:Camera traps provide a low-cost approach to collect data and monitor wildlife across large scales but hand-labeling images at a rate that outpaces accumulation is difficult. Deep learning, a subdiscipline of machine learning and computer science, can address the issue of automatically classifying camera-trap images with a high degree of accuracy. This technique, however, may be less accessible to ecologists or small-scale conservation projects, and has serious limitations. In this study, we trained a simple deep learning model using a dataset of 120,000 images to identify the presence of nilgai Boselaphus tragocamelus, a regionally specific nonnative game animal, in camera-trap images with an overall accuracy of 97%. We trained a second model to identify 20 groups of animals and one group of images without any animals present, labeled as "none," with an accuracy of 89%. Lastly, we tested the multigroup model on images collected of similar species, but in the southwestern United States, resulting in significantly lower precision and recall for each group. This study highlights the potential of deep learning for automating camera-trap image processing workflows, provides a brief overview of image-based deep learning, and discusses the often-understated limitations and methodological considerations in the context of wildlife conservation and species monitoring.
ISSN:1944-687X
1944-687X
DOI:10.3996/JFWM-20-076