Discover Sustainability (Jan 2024)

Internet of things sensors and support vector machine integrated intelligent irrigation system for agriculture industry

  • G. Kranthi Kumar,
  • Manoj L. Bangare,
  • Pushpa M. Bangare,
  • Chanda Raj Kumar,
  • Roop Raj,
  • José Luis Arias-Gonzáles,
  • Batyrkhan Omarov,
  • Md. Solaiman Mia

DOI
https://doi.org/10.1007/s43621-024-00179-5
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 10

Abstract

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Abstract Because there is more demand for freshwater around the world and the world’s population is growing at the same time, there is a severe lack of freshwater resources in the central part of the planet. The world’s current population of 7.2 billion people is expected to grow to over 9 billion by the year 2050. The vast majority of freshwater is used for things like cooking, cleaning, and farming. Most industrialised countries are in desperate need of smart irrigation systems, which are now a must-have because of how quickly technology is improving. In article presents IoT based Sensor integrated intelligent irrigation system for agriculture industry. IoT based humidity and soil sensors are used to collect soil related data. This data is stored in a centralized cloud. Features are selected by CFS algorithm. This will help in discarding irrelevant data. Clustering of data is performed by K means algorithm. This will help in keeping similar data together. Then classification model is build using the SVM, Random Forest and Naïve Bayes algorithm. Model is trained, validated and tested using the acquired data. Historical soil and humidity related data is also used in training the model. K-means SVM hybrid classifier is achieving better results for classification, prediction of water demand and saving fresh water by intelligent irrigation. K-means SVM hybrid classifier has achieved accuracy rate of 98.5 percent. Specificity, recall and precision of K-means SVM hybrid classifier is also higher than random forest and naïve bayes classifier.

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