Understanding External Influences on Target Detection and Classification Using Camera Trap Images and Machine Learning

Author:

Westworth Sally O. A.ORCID,Chalmers CarlORCID,Fergus PaulORCID,Longmore Steven N.ORCID,Piel Alex K.ORCID,Wich Serge A.ORCID

Abstract

Using machine learning (ML) to automate camera trap (CT) image processing is advantageous for time-sensitive applications. However, little is currently known about the factors influencing such processing. Here, we evaluate the influence of occlusion, distance, vegetation type, size class, height, subject orientation towards the CT, species, time-of-day, colour, and analyst performance on wildlife/human detection and classification in CT images from western Tanzania. Additionally, we compared the detection and classification performance of analyst and ML approaches. We obtained wildlife data through pre-existing CT images and human data using voluntary participants for CT experiments. We evaluated the analyst and ML approaches at the detection and classification level. Factors such as distance and occlusion, coupled with increased vegetation density, present the most significant effect on DP and CC. Overall, the results indicate a significantly higher detection probability (DP), 81.1%, and correct classification (CC) of 76.6% for the analyst approach when compared to ML which detected 41.1% and classified 47.5% of wildlife within CT images. However, both methods presented similar probabilities for daylight CT images, 69.4% (ML) and 71.8% (analysts), and dusk CT images, 17.6% (ML) and 16.2% (analysts), when detecting humans. Given that users carefully follow provided recommendations, we expect DP and CC to increase. In turn, the ML approach to CT image processing would be an excellent provision to support time-sensitive threat monitoring for biodiversity conservation.

Publisher

MDPI AG

Subject

Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry

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1. Safeguarding Biodiversity: Remote Forest Poaching Camp Detection with CNN and Spatial Transformer Networks;2024 International Conference on Electronics, Computing, Communication and Control Technology (ICECCC);2024-05-02

2. Object classification and visualization with edge artificial intelligence for a customized camera trap platform;Ecological Informatics;2024-03

3. Do Datapoints Argue?: Argumentation for Hierarchical Agreement in Datasets;Communications in Computer and Information Science;2024

4. Trap camera prototype with remote monitoring system through LoRa technology;2023 IEEE XXX International Conference on Electronics, Electrical Engineering and Computing (INTERCON);2023-11-02

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