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Animal recognition and identification with deep convolutional neural networks for automated wildlife monitoring

conference contribution
posted on 2017-07-02, 00:00 authored by H Nguyen, Sarah Maclagan, Tu Dinh Nguyen, Thin NguyenThin Nguyen, P Flemons, K Andrews, Euan RitchieEuan Ritchie, Quoc-Dinh Phung
© 2017 IEEE. Efficient and reliable monitoring of wild animals in their natural habitats is essential to inform conservation and management decisions. Automatic covert cameras or “camera traps” are being an increasingly popular tool for wildlife monitoring due to their effectiveness and reliability in collecting data of wildlife unobtrusively, continuously and in large volume. However, processing such a large volume of images and videos captured from camera traps manually is extremely expensive, time-consuming and also monotonous. This presents a major obstacle to scientists and ecologists to monitor wildlife in an open environment. Leveraging on recent advances in deep learning techniques in computer vision, we propose in this paper a framework to build automated animal recognition in the wild, aiming at an automated wildlife monitoring system. In particular, we use a single-labeled dataset from Wildlife Spotter project, done by citizen scientists, and the state-of-the-art deep convolutional neural network architectures, to train a computational system capable of filtering animal images and identifying species automatically. Our experimental results achieved an accuracy at 96.6% for the task of detecting images containing animal, and 90.4% for identifying the three most common species among the set of images of wild animals taken in South-central Victoria, Australia, demonstrating the feasibility of building fully automated wildlife observation. This, in turn, can therefore speed up research findings, construct more efficient citizen science-based monitoring systems and subsequent management decisions, having the potential to make significant impacts to the world of ecology and trap camera images analysis.

History

Event

Data Science and Advances Analytics. Conference (2017 : Tokyo, Japan)

Pagination

40 - 49

Publisher

IEEE

Location

Tokyo Japan

Place of publication

Piscataway, N.J.

Start date

2017-10-19

End date

2017-10-21

ISBN-13

9781509050048

Language

eng

Publication classification

E Conference publication; E1 Full written paper - refereed

Copyright notice

2017, IEEE

Title of proceedings

DSAA 2017 : Proceedings - 2017 International Conference on Data Science and Advanced Analytics