利用改进的萌芽模型加强大豆分类:迁移学习方法

IF 0.7 4区 农林科学 Q3 AGRONOMY
Yonis Gulzar
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引用次数: 0

摘要

深度学习(DL)在许多领域都产生了巨大影响,尤其是在农业领域。在此背景下,我们的研究重点是对有问题的大豆种子进行分类。采用的数据集包括五个不同的类别,共计 5513 张图像。我们的模型基于 InceptionV3 架构,在此基础上增加了五个辅助层,以提高效率和性能。为了优化准确性,我们整合了迁移学习、自适应学习率调整(至 0.001)和模型检查点等技术。在初始评估中,InceptionV3 模型的训练准确率为 88.07%,验证准确率为 86.67%。随后实施的模型调整策略显著提高了性能。使用附加层(包括平均池化、扁平化、密集化、Dropout 和 Softmax)增强架构在提高准确率方面发挥了关键作用。包括精确度、召回率和 F1 分数在内的评估指标凸显了模型的有效性。精确度从 0.9706 到 1.0000 不等,而召回值则表明所有类别的捕获率都很高。F1 分数反映了精确度和召回率之间的平衡,在所有类别中都表现出色,其值从 0.9851 到 1.0000 不等。与现有研究的对比分析表明,我们提出的模型达到了 98.73% 的准确率,具有很强的竞争力。虽然不同研究的具体目的和数据集存在差异,但我们的模型在大豆种子分类中表现出了良好的性能,为作物健康评估和管理方面的农业技术进步做出了贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing soybean classification with modified inception model: A transfer learning approach
The impact of deep learning (DL) is substantial across numerous domains, particularly in agriculture. Within this context, our study focuses on the classification of problematic soybean seeds. The dataset employed encompasses five distinct classes, totaling 5513 images. Our model, based on the InceptionV3 architecture, undergoes modification with the addition of five supplementary layers to enhance efficiency and performance. Techniques such as transfer learning, adaptive learning rate adjustment (to 0.001), and model checkpointing are integrated to optimize accuracy. During initial evaluation, the InceptionV3 model achieved 88.07% accuracy in training and 86.67% in validation. Subsequent implementation of model tuning strategies significantly improves performance. Augmenting the architecture with additional layers, including Average Pooling, Flatten, Dense, Dropout, and Softmax, plays a pivotal role in enhancing accuracy. Evaluation metrics, including precision, recall, and F1-score, underscore the model’s effectiveness. Precision ranges from 0.9706 to 1.0000, while recall values demonstrate a high capture rate across all classes. The F1-score, reflecting a balance between precision and recall, exhibits remarkable performance across all classes, with values ranging from 0.9851 to 1.0000. Comparative analysis with existing studies reveals competitive accuracy of 98.73% achieved by our proposed model. While variations exist in specific purposes and datasets among studies, our model showcases promising performance in soybean seed classification, contributing to advancements in agricultural technology for crop health assessment and management.
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来源期刊
Emirates Journal of Food and Agriculture
Emirates Journal of Food and Agriculture AGRONOMYFOOD SCIENCE & TECHNOLOGY&nb-FOOD SCIENCE & TECHNOLOGY
CiteScore
1.80
自引率
0.00%
发文量
18
期刊介绍: The "Emirates Journal of Food and Agriculture [EJFA]" is a unique, peer-reviewed Journal of Food and Agriculture publishing basic and applied research articles in the field of agricultural and food sciences by the College of Food and Agriculture, United Arab Emirates University, United Arab Emirates.
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