Hybridizing Convolutional Neural Networks and Support Vector Machines for Mango Ripeness Classification

R. Tiwari, Ankit Kumar Rai
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Abstract

This research aims to identify the maturity of mangoes by proposing a hybrid approach that combines a convolutional neural network (CNN) and support vector machine (SVM). Sorting mangoes according to ripeness is a vital agricultural exercise that increases yield productivity and reduces overages during storage. The suggested hybrid model aims to improve the efficiency and accuracy of existing methods for classifying mango ripeness. The hybrid CNN-SVM model was trained and tested using the dataset containing approx. thousand images of mangoes in three stages (unripe, ripe and overripe). The proposed hybrid method combines CNN's capability to extract characteristics from visual input with the accuracy of SVM classification. With a farfetched 98.53% accuracy rate, experiments with the hybrid model show that it performs better than both traditional machine learning and deep learning approaches. These results demonstrate how hybrid models may be used to assess the maturity of mangos quickly and accurately, which might improve agricultural decision-making.
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混合卷积神经网络和支持向量机进行芒果成熟度分类
本研究旨在通过提出一种结合卷积神经网络(CNN)和支持向量机(SVM)的混合方法来识别芒果的成熟度。根据成熟度对芒果进行分拣是一项重要的农业工作,可提高产量,减少储存过程中的过剩。所建议的混合模型旨在提高现有芒果成熟度分类方法的效率和准确性。CNN-SVM 混合模型使用包含约千张芒果三个阶段(未成熟、成熟和过熟)图像的数据集进行了训练和测试。所提出的混合方法结合了 CNN 从视觉输入中提取特征的能力和 SVM 分类的准确性。混合模型的准确率高达 98.53%,实验表明它的表现优于传统的机器学习和深度学习方法。这些结果表明,混合模型可用于快速、准确地评估芒果的成熟度,从而改善农业决策。
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