A PCA-SMO Based Hybrid Classification Model for Predictions in Precision Agriculture

IF 1 4区工程技术 Q3 ENGINEERING, MULTIDISCIPLINARY

Tehnicki Vjesnik-Technical Gazette Pub Date : 2023-10-15 DOI:10.17559/tv-20230530000682

Mo Dong, YU Haiye, Lei Zhang, Yuanyuan Sui, Ruohan Zhao

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引用次数: 0

Abstract

: The human population is growing at an extremely rapid rate, the demand of food supplies for the survival and sustainability of life is a gleaming challenge. Each living being in the planet gets bestowed with the healthy food to remain active and healthy. Agriculture is a domain which is extremely important as it provides the fundamental resources for survival in terms of supplying food and thus the economy of the entire world is highly dependent on agricultural production. The agricultural production is often affected by various environmental and geographical factors which are difficult to avoid being part of nature. Thus, it requires proactive mitigation plans to reduce any detrimental effect caused by the imbalance of these factors. Precision agriculture is an approach that incorporates information technology in agriculture management, the needs of crops and farming fields are fulfilled to optimized crop health and resultant crop production. The proposed study involves an ambient intelligence-based implementation using machine learning to classify diseases in tomato plants based on the images of its leaf dataset. To analytically evaluate the performance of the framework, a publicly available plant-village dataset is used which is transformed to appropriate form using one-hot encoding technique to meet the needs of the machine learning algorithm. The transformed data is dimensionally reduced by Principal Component Analysis (PCA) technique and further the optimal parameters are selected using Spider Monkey Optimization (SMO) approach. The most relevant features as selected using the Hybrid PCA-SMO technique fed into a Deep Neural Networks (DNN) model to classify the tomato diseases. The optimal performance of the DNN model after implementing dimensionality reduction by Hybrid PCA-SMO technique reached at 99% accuracy was achieved in training and 94% accuracy was achieved after testing the model for 20 epochs. The proposed model is evaluated based on accuracy and loss rate metrics; it justifies the superiority of the approach.

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基于PCA-SMO的精准农业预测混合分类模型

当前世界人口正以极快的速度增长，对食物供应的需求对生命的生存和可持续发展是一个巨大的挑战。地球上的每个生物都被赋予了健康的食物来保持活跃和健康。农业是一个极其重要的领域，因为它提供了基本的生存资源，供应食物，因此整个世界的经济高度依赖于农业生产。农业生产经常受到各种环境和地理因素的影响，这些因素难以避免地成为自然的一部分。因此，需要积极主动的缓解计划，以减少这些因素不平衡造成的任何有害影响。精准农业是一种将信息技术纳入农业管理的方法，满足作物和农田的需求，以优化作物健康和最终的作物产量。拟议的研究涉及一种基于环境智能的实现，使用机器学习根据其叶片数据集的图像对番茄植物的疾病进行分类。为了分析评估框架的性能，使用了一个公开可用的植物-村庄数据集，该数据集使用one-hot编码技术转换为适当的形式，以满足机器学习算法的需要。利用主成分分析(PCA)技术对变换后的数据进行降维，并利用蜘蛛猴优化(SMO)方法选择最优参数。使用混合PCA-SMO技术选择最相关的特征，并将其输入深度神经网络(DNN)模型对番茄病害进行分类。采用Hybrid PCA-SMO技术降维后的DNN模型在训练中达到了99%的最优准确率，在20个epoch的测试中达到了94%的准确率。该模型基于准确率和损失率指标进行评估;它证明了这种方法的优越性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Tehnicki Vjesnik-Technical Gazette ENGINEERING, MULTIDISCIPLINARY-

CiteScore

1.90

自引率

11.10%

发文量

270

审稿时长

12.6 months

期刊介绍： The journal TEHNIČKI VJESNIK - TECHNICAL GAZETTE publishes scientific and professional papers in the area of technical sciences (mostly from mechanical, electrical and civil engineering, and also from their boundary areas). All articles have undergone peer review and upon acceptance are permanently free of all restrictions on access, for everyone to read and download. For all articles authors will be asked to pay a publication fee prior to the article appearing in the journal. However, this fee only to be paid after the article has been positively reviewed and accepted for publishing. All details can be seen at http://www.tehnicki-vjesnik.com/web/public/page First year of publication: 1994 Frequency (annually): 6