利用卷积神经网络确定水稻种子品质

Q3 Decision Sciences

JOIV International Journal on Informatics Visualization Pub Date : 2023-06-27 DOI:10.30630/joiv.7.2.1175

S. S. Hidayat, Dwi Rahmawati, Muhamad Cahyo Ardi Prabowo, L. Triyono, Farika T. Putri

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引用次数: 0

摘要

种子检验对苗圃和农民来说是至关重要的，因为它可以确保幼苗生长时的种子质量。传统上，它是由专家检查员手动过滤样本来完成的，但是存在一些挑战，例如成本、准确性和大量数据。速度和准确性是提高农业生产力的主要条件。机器学习是人工智能的一门分支科学，可以应用于水稻种子质量分类的研究。机器学习系统的流水线是数据集收集、训练、验证和测试。模型制作首先是根据稻种的形状和颜色等物理参数，获取稻种的特征数据。使用的数据集是2000张图像，分为两类，即优质种子和非优质种子。使用卷积神经网络(CNN)算法进行训练和验证，并在谷歌协作笔记本上进行交叉验证。在数据集建模中，训练数据和验证数据的分割比例为80:20。所形成的模型结果是通过开发深度卷积神经网络(Deep CNN)，可以从上传到系统的数据调用结果中对水稻种子的数字图像数据进行分类的模型。通过对30个测试数据的实验结果进行分析，该系统可以对优质和非优质种子进行分类，准确率为93%，召回率为95%。

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Determining the Rice Seeds Quality Using Convolutional Neural Network

Seed inspection is crucial for plant nurseries and farmers as it ensures seed quality when growing seedlings. It is traditionally accomplished by expert inspectors filtering samples manually, but there are some challenges, such as cost, accuracy, and large numbers. Speed and accuracy were the main conditions for increasing agricultural productivity. Machine learning is a sub-science of Artificial Intelligence that can be applied in research on the classification of rice seed quality. The pipeline of a machine learning system is dataset collection, training, validation, and testing. Model making begins with taking data on the characteristics of rice seeds based on physical parameters in the form of seed shape and color. The dataset used is two thousand images divided into two categories, namely superior seeds and non-superior seeds. Training and Validation was conducted using the Convolutional Neural Network (CNN) algorithm with the concept of cross-validation on Google Collaboratory notebooks. The ratio split of train data and validation data in modeling from a dataset is 80:20. The result of the model formed is a model with the development of a Deep Convolutional Neural Network (Deep CNN) that can classify the digital image data of rice seeds from the results of data calls uploaded into the system. The results of the experiment conducted on 30 test data can be analyzed so that the system can classify superior and non-superior seeds with a precision value of 93% and a recall of 95%.

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