基于集成学习的卷积神经网络改进有孔虫分类

Signals Pub Date : 2023-07-17 DOI:10.3390/signals4030028
L. Nanni, Giovanni Faldani, S. Brahnam, Riccardo Bravin, Elia Feltrin
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引用次数: 0

摘要

本文介绍了一种在物种水平上识别浮游有孔虫的自动化系统的研究。该系统结合了深度学习方法,特别是卷积神经网络,来分析在不同照明角度拍摄的有孔虫数字图像。该数据集由1437组16幅灰度图像组成,每个有孔虫标本一组,然后通过各种处理方法将其转换为RGB图像。这些RGB图像被馈送到在集成学习(EL)环境中组织的一组CNN中。该集合是通过使用不同的方法来创建RGB图像来训练不同的网络来构建的。研究发现,与其他最先进的方法相比,在不同RGB图像上训练的CNN模型集合提高了系统的性能。本文的主要重点是介绍不同于当前尖端技术的多种着色方法;提出了新的策略,如高斯或基于均值的技术。还发现,所提出的系统在分类精度方面优于人类专家。
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Improving Foraminifera Classification Using Convolutional Neural Networks with Ensemble Learning
This paper presents a study of an automated system for identifying planktic foraminifera at the species level. The system uses a combination of deep learning methods, specifically convolutional neural networks (CNNs), to analyze digital images of foraminifera taken at different illumination angles. The dataset is composed of 1437 groups of sixteen grayscale images, one group for each foraminifera specimen, that are then converted to RGB images with various processing methods. These RGB images are fed into a set of CNNs, organized in an ensemble learning (EL) environment. The ensemble is built by training different networks using different approaches for creating the RGB images. The study finds that an ensemble of CNN models trained on different RGB images improves the system’s performance compared to other state-of-the-art approaches. The main focus of this paper is to introduce multiple colorization methods that differ from the current cutting-edge techniques; novel strategies like Gaussian or mean-based techniques are suggested. The proposed system was also found to outperform human experts in classification accuracy.
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CiteScore
3.20
自引率
0.00%
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审稿时长
11 weeks
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