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23 August 2021 A comparison of manual and automated detection of rusa deer (Rusa timorensis) from RPAS-derived thermal imagery
Ashlee Sudholz, Simon Denman, Anthony Pople, Michael Brennan, Matt Amos, Grant Hamilton
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Abstract

Context. Monitoring is an essential part of managing invasive species; however, accurate, cost-effective detection techniques are necessary for it to be routinely undertaken. Current detection techniques for invasive deer are time consuming, expensive and have associated biases, which may be overcome by exploiting new technologies.

Aims. We assessed the accuracy and cost effectiveness of automated detection methods in comparison to manual detection of thermal footage of deer captured by remotely piloted aircraft systems.

Methods. Thermal footage captured by RPAS was assessed using an algorithm combining two object-detection techniques, namely, YOLO and Faster-RCNN. The number of deer found using manual review on each sampling day was compared with the number of deer found on each day using machine learning. Detection rates were compared across survey areas and sampling occasions.

Key results. Overall, there was no difference in the mean number of deer detected using manual and that detected by automated review (P = 0.057). The automated-detection algorithm identified between 66.7% and 100% of deer detected using manual review of thermal imagery on all but one of the sampling days. There was no difference in the mean proportion of deer detected using either manual or automated review at three repeated sampling events (P = 0.174). However, identifying deer using the automated review algorithm was 84% cheaper than the cost of manual review. Low cloud cover appeared to affect detectability using the automated review algorithm.

Conclusions. Automated methods provide a fast and effective way to detect deer. For maximum effectiveness, imagery that encompasses a range of environments should be used as part of the training dataset, as well as large groups for herding species. Adequate sensing conditions are essential to gain accurate counts of deer by automated detection.

Implications. Machine learning in combination with RPAS may decrease the cost and improve the detection and monitoring of invasive species.

© CSIRO 2022
Ashlee Sudholz, Simon Denman, Anthony Pople, Michael Brennan, Matt Amos, and Grant Hamilton "A comparison of manual and automated detection of rusa deer (Rusa timorensis) from RPAS-derived thermal imagery," Wildlife Research 49(1), 46-53, (23 August 2021). https://doi.org/10.1071/WR20169
Received: 29 September 2020; Accepted: 27 May 2021; Published: 23 August 2021
KEYWORDS
automated detection
deer
drone
invasive species
machine learning
pest species
remotely piloted aircraft systems
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