Improving the Accuracy of Animal Species Classification in Camera Trap Images Using Transfer Learning

2024 International Conference on Artificial Intelligence, Computer, Data Sciences and Applications (ACDSA) Pub Date : 2024-02-01 DOI:10.1109/ACDSA59508.2024.10467777

Moussa Mahamat Boukar, A. A. Mahamat, Oumar Hassan Djibrine, Usman Bello Abubakar

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Abstract

Understanding biodiversity, monitoring endangered species, and estimating the possible effect of climate change on particular regions all rely on animal species identification. Closed-circuit television (CCTV) cameras, which can collect huge volumes of video data, are an excellent environmental monitoring tool. However, manually evaluating these massive datasets is time-consuming, difficult, and expensive, emphasizing the need for automated ecological analysis.Deep learning models have transformed computer vision, handling problems such as object and species detection. Their cutting-edge performance qualifies them for this application. The purpose of this work was to create and test machine learning models for distinguishing diverse animal species using camera trap images. On VGG19, GoogLeNet (InceptionV3), ResNet50, and DenseNet121, we used transfer learning. The best multi-classification accuracy was attained by GoogLeNet (87%), followed by ResNet50 (83%), DenseNet (81%), and VGG19 (53%). This evidence suggests that transfer learning outperforms training models from scratch for this task.

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利用迁移学习提高相机捕捉图像中动物物种分类的准确性

了解生物多样性、监测濒危物种以及估算气候变化对特定地区可能造成的影响，都有赖于对动物物种的识别。闭路电视（CCTV）摄像机可以收集大量视频数据，是一种出色的环境监测工具。然而，人工评估这些海量数据集既费时又费力，而且成本高昂，这就凸显了对自动化生态分析的需求。深度学习模型已经改变了计算机视觉，可以处理物体和物种检测等问题，其尖端的性能使其有资格用于这一应用。这项工作的目的是创建和测试机器学习模型，利用相机陷阱图像区分不同的动物物种。在 VGG19、GoogLeNet (InceptionV3)、ResNet50 和 DenseNet121 上，我们使用了迁移学习。GoogLeNet 的多重分类准确率最高（87%），其次是 ResNet50（83%）、DenseNet（81%）和 VGG19（53%）。这些证据表明，在这项任务中，迁移学习的效果优于从头开始训练模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2024 International Conference on Artificial Intelligence, Computer, Data Sciences and Applications (ACDSA)

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