基于多参数生物特征表示和集成分类的作物病害检测模型设计

Snehal A. Lohi, Chinmay Bhatt
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引用次数: 0

摘要

农作物病害检测已成为智能农业模式的重要组成部分。为了完成这项任务,研究人员提出了各种侵入式和非侵入式模型。侵入式模型具有更高的部署成本、更高的复杂性和污染底层作物,因此它们仅限于临床用例。对于非侵入式方法,观察到这些模型中的大多数能够在特定于应用程序的数据集下获得更好的性能,并且无法扩展到更大的数据集。为了克服这一局限性,本文提出了一种基于多参数生物特征表示的作物病害检测与产量预测模型。该模型首先使用了一种作物特定的自适应阈值技术,该技术有助于对不同作物类型进行有效的分割。分割后的图像通过多个特征提取单元进行处理,提取颜色、形状、纹理和卷积特征。利用基于遗传算法的特征选择模型对这些特征进行进一步处理,实现特征方差最大化以识别最优特征集。选择的特征集使用集成分类模型进行分类,该模型结合了支持向量机(svm)、多层感知器(MLP)、线性回归(LR)、决策树(DT)和Naïve贝叶斯(NB)分类器。根据分类器在不同作物类型下的精度表现选择分类器。结果表明,SVM和LR对大豆和南瓜作物具有较好的识别精度,MLP和LR对马铃薯和辣椒作物具有较好的识别精度,NB对苹果和覆盆子作物具有较好的识别精度。由于这些自适应分类器的组合,所提出的模型能够在多个数据集上实现99.5%的准确率,这使得它对各种各样的分类场景非常有用。
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Design of a Crop Disease Detection Model using Multi-parametric Bio-inspired Feature Representation and Ensemble Classification
Crop disease detection has become an integral part of smart farming models. To perform this task, various intrusive & non-intrusive models are proposed by researchers. Intrusive models have higher deployment cost, higher complexity & contaminate underlying crops, due to which they are limited to clinical use cases. For non-intrusive methods, it is observed that most of these models are capable of achieving better performance under application-specific datasets, and cannot be scaled for larger datasets. To overcome this limitation, a novel crop disease detection & yield prediction model via multi-parametric bio-inspired feature representation is proposed in this text. The proposed model initially uses a crop-specific adaptive thresholding technique, which assists in efficient segmentation for different crop types. The segmented imagery is processed via multiple feature extraction units, which extract colour, shape, texture & convolutional features. These features are further processed via use of Genetic Algorithm (GA) based feature selection model, that implements feature variance maximization to identify optimal feature sets. The selected feature sets are classified using ensemble classification model that combines Support Vector Machines (SVMs), Multilayer Perceptron (MLP), Linear Regression (LR), Decision Tree (DT), and Naïve Bayes (NB) classifiers. These classifiers were selected based on their accuracy performance under different crop types. It was observed that SVM & LR had better performance for Soybean & Squash crops, MLP & LR had better performance for Potato & Pepper crops, while NB had better accuracy for Apple & Raspberry crops. Due to a combination of these adaptive classifiers, the proposed model is capable of achieving an accuracy of 99.5% across multiple datasets, which makes it highly useful for a wide variety of classification scenarios.
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