Disruptive technologies for smart farming in developing countries: Tomato leaf disease recognition systems based on machine learning

IF 1.1 Q2 SOCIAL SCIENCES, INTERDISCIPLINARY
Ravichandra Reddy Kovvuri, Abhishek Kaushik, Sargam Yadav
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引用次数: 1

Abstract

Food security is a major concern in every developing country. Farmers face many problems while cultivating plants and they must take precautions at every stage of cultivation. Plants get diseases for various reasons like bacteria, insects, and fungus. Some diseases can be detected by examining the symptoms on the leaves. Early detection of diseases is a major concern and may require a thorough examination of the plants by an agricultural professional. This process is expensive and time taking. Machine learning (ML) algorithms help in image recognition and can be used to detect diseases on time without the need of an agricultural professional. In this project, the diseases in tomato leaves will be detected using image processing. The data from the images are extracted using different vectorization methods and classification algorithms like logistic regression (LR), support vector machine (SVM), and k-nearest neighbors (KNN). Vectors of size 32 × 32 and 64 × 64 are used for training with normalizer scaling and no scaling. Out of the different approaches that were explored, SVM with the radial basis function (RBF) kernel gives the highest accuracy of 85% with no scaling and 64 × 64 image dimension.

发展中国家智能农业的颠覆性技术:基于机器学习的番茄叶病识别系统
粮食安全是每个发展中国家关注的主要问题。农民在种植植物时面临许多问题,必须在种植的每个阶段采取预防措施。植物生病的原因有很多,比如细菌、昆虫和真菌。有些疾病可以通过检查叶子上的症状来检测。疾病的早期发现是一个主要问题,可能需要农业专业人员对植物进行彻底检查。这个过程既昂贵又耗时。机器学习(ML)算法有助于图像识别,并可用于及时检测疾病,而无需农业专业人员。本项目将利用图像处理技术对番茄叶片病害进行检测。从图像中提取数据使用不同的矢量化方法和分类算法,如逻辑回归(LR),支持向量机(SVM)和k近邻(KNN)。大小为32 × 32和64 × 64的向量使用归一化缩放和不缩放进行训练。在探索的不同方法中,具有径向基函数(RBF)核的SVM在没有缩放和64 × 64图像维度的情况下具有85%的最高准确率。
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来源期刊
CiteScore
3.60
自引率
15.40%
发文量
51
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