Analysis of Support Vector Regression Performance in Prediction of Lettuce Growth for Aeroponic IoT Systems

2021 International Conference Advancement in Data Science, E-learning and Information Systems (ICADEIS) Pub Date : 2021-10-13 DOI:10.1109/ICADEIS52521.2021.9702093

Basil Haidi Farizan, Aji Gautama Putrada, Rizka Reza Pahlevi

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引用次数: 3

Abstract

In aeroponics, an IoT-based monitoring system that can monitor the growth of lettuce is needed because the delay in harvesting lettuce can cause the lettuce to taste bitter when consumed and in addition, if the lettuce is harvested at a too young age, the dry weight of the plant is not optimal. However, monitoring can only be done on parameters that can be measured by sensors so a regression method such as SVR needs to be trained to predict the lettuce growth. The purpose of this study is to analyze the performance of SVR in the lettuce growth prediction process. The basic features for predicting are light intensity, air temperature, air humidity, and water temperature. Additional features are light accumulation and day of growth. Preprocessing steps are implemented to improve the performance of the SVR model which are feature scaling using standard scaling and feature selection using Pearson correlation. The test results show that the optimized R-Squared value for the performance of SVR model in predicting growth targets leaf number, fresh weight, leaf width, and leaf length are 0.98 each.

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气培物联网系统莴苣生长预测的支持向量回归性能分析

在气培中，由于生菜的收获延迟会导致生菜在食用时尝起来很苦，而且如果生菜的收获年龄太小，植株的干重也不是最佳的，因此需要基于物联网的监控系统来监控生菜的生长。然而，监测只能在传感器可以测量的参数上进行，因此需要训练回归方法(如SVR)来预测生菜的生长。本研究的目的是分析SVR在生菜生长预测过程中的性能。预测的基本特征是光照强度、空气温度、空气湿度和水温。其他特征是光积累和生长日。为了提高支持向量回归模型的性能，采用标准尺度进行特征缩放，采用Pearson相关性进行特征选择。试验结果表明，优化后的SVR模型在预测生长目标叶数、鲜重、叶宽和叶长方面的R-Squared值均为0.98。

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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2021 International Conference Advancement in Data Science, E-learning and Information Systems (ICADEIS)

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