Mosquitoes Classification using EfficientNetB4 Transfer Learning Model

2023 2nd International Conference on Applied Artificial Intelligence and Computing (ICAAIC) Pub Date : 2023-05-04 DOI:10.1109/ICAAIC56838.2023.10141504

Shikha Prasher, Leema Nelson

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引用次数: 1

Abstract

A million individuals per year die from diseases spread by mosquitoes. When a mosquito stings, saliva is injected into the body, causing the illness to spread to the victims. In a surveillance programmed for infections propagated through mosquito detection, categorization is the most crucial stage. Classification and labeling are difficult and time-consuming procedures when employing traditional method to collect data. Transfer learning is an advanced image processing techniques that offers a great solution to this problem. With very few training images, transfer learning is a form of CNN that can be beneficial and long-lasting for image analysis. This research will enhance human health and quality of life. The purpose of this approach is to create a systematic process for developing a categorization system using an EfficentNetB4 transfer learning algorithm for mosquitoes. The resultant performance analysis showed that the EfficentNetB4 model offers an accuracy of 85.79%, loss of 40.05%, val_loss of 40.42%, and val_accuracy of 86.30%.

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基于EfficientNetB4迁移学习模型的蚊子分类

每年有一百万人死于蚊子传播的疾病。当蚊子叮咬时，唾液被注射到体内，导致疾病传播给受害者。在通过蚊子检测传播感染的监测规划中，分类是最关键的阶段。采用传统方法收集数据时，分类和标注是一个困难且耗时的过程。迁移学习是一种先进的图像处理技术，为这一问题提供了很好的解决方案。在训练图像很少的情况下，迁移学习是CNN的一种形式，可以对图像分析有益且持久。这项研究将提高人类的健康和生活质量。本方法的目的是利用EfficentNetB4迁移学习算法创建一个系统的过程来开发蚊子分类系统。结果表明，EfficentNetB4模型的准确率为85.79%，loss为40.05%，val_loss为40.42%，val_accuracy为86.30%。

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2023 2nd International Conference on Applied Artificial Intelligence and Computing (ICAAIC)

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