Agriculture Crop Yield Analysis and Prediction using Feature Selection based Machine Learning Techniques

D. R. Kanth, B. Kavya, Narameta Thanuja Sri, A. Saikrishna
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Abstract

Agriculture is being the world's largest industry; it plays a major role in maintaining the economic stability of developing countries. Because of the responsibilities that this sector bears, it is critical to find the precision of production in making profitable decisions in agricultural sector. Machine learning is the most effective tool for making decisions. Machine learning techniques with correct optimizations have been utilized in conjunction with the use of multiple algorithms and create an accurate model for predicting production and also in guiding to improve crop cultivation for enhanced output. The elements like cost of cultivation, cost of production, and yield are utilized to predict the crop yield during the analysis. In this study, the necessary data was acquired, and the methodologies and features employed in agricultural yield analysis were studied. During the literature survey more than 50 articles were referred for analysis. Relevant topics were collected from electronic databases and found useful machine learning approaches with which desired model was developed. Along with Random Forest, Decision Trees, and Support Vector Machine, Gaussian Nave Bayes, and Ada Boost machine learning techniques, Carl Pearson Correlation, Mutual Information, and Chi Square Feature Selection techniques were applied. The accuracy percentage for different algorithms was calculated crop yield prediction with and without feature selection approaches. We also used time complexities to figure out which method is the most efficient and accurate.
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基于特征选择的机器学习技术的农作物产量分析与预测
农业正在成为世界上最大的产业;它在维护发展中国家的经济稳定方面发挥着重要作用。由于该部门承担的责任,在农业部门做出有利可图的决策时,找到生产的准确性至关重要。机器学习是最有效的决策工具。正确优化的机器学习技术已与多种算法结合使用,并创建了一个准确的模型,用于预测产量,并指导改善作物种植以提高产量。在分析过程中,利用种植成本、生产成本和产量等因素来预测作物产量。本研究收集了必要的数据,并对农业产量分析的方法和特点进行了研究。在文献调查中,参考了50多篇文章进行分析。从电子数据库中收集相关主题,并找到有用的机器学习方法,用于开发所需的模型。除了随机森林、决策树、支持向量机、高斯朴素贝叶斯和Ada Boost机器学习技术外,还应用了卡尔·皮尔逊相关、互信息和卡方特征选择技术。计算了采用特征选择方法和不采用特征选择方法预测作物产量的准确率。我们还利用时间复杂度来找出哪种方法是最有效和准确的。
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