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Automated Wildlife Bird Detection from Drone Footage Using Computer Vision Techniques

Dimitrios Mpouziotas, Petros Karvelis, Ioannis G. Tsoulos, Chrysostomos Stylios

2023Applied Sciences28 citationsDOIOpen Access PDF

Abstract

Wildlife conservationists have traditionally relied on manual identification and tracking of bird species to monitor populations and identify potential threats. However, many of these techniques may prove to be time-consuming. With the advancement of computer vision techniques, automated bird detection and recognition have become possible. In this manuscript, we present an application of an object-detection model for identifying and tracking wild bird species in natural environments. We used a dataset of bird images captured in the wild and trained the YOLOv4 model to detect bird species with high accuracy. We evaluated the model’s performance on a separate set of test images and achieved an average precision of 91.28%. Our method surpassed the time-consuming nature of manual identification and tracking, allowing for efficient and precise monitoring of bird populations. Through extensive evaluation on a separate set of test images, we demonstrated the performance of our model. Furthermore, our results demonstrated the potential of using YOLOv4 for automated bird detection and monitoring in the wild, which could help conservationists better understand bird populations and identify potential threats.

Topics & Concepts

Computer scienceWildlifeIdentification (biology)DroneArtificial intelligenceSet (abstract data type)EcologyBiologyGeneticsProgramming languageWildlife-Road Interactions and ConservationSpecies Distribution and Climate ChangeWildlife Ecology and Conservation
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