Determination of Soil Agricultural Aptitude for Sugar Cane Production in Vertisols with Machine Learning

Landeta-Escamilla, Ofelia; Alvarado-Lassman, Alejandro; Sandoval-Gonzalez, Oscar Osvaldo; Flores-Cuautle, J. J. A.; Rosas-Mendoza, Erik Samuel; Martínez-Sibaja, Albino; Cantú, Norma Alejandra Vallejo; Méndez-Contreras, Juan Manuel

doi:10.3390/pr11071985

Cited by 2 publications

(1 citation statement)

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“…In the work of Anna et al [11], soil quality index (SQI) was measured using principal component analysis (PCA) method and also showed that long, the long term sugarcane monoculture significantly affects on the value of SQI. In the work of Ofelia et al [12], eleven different soil physicochemical parameters with an average accuracy of 73% using only the data of potassium, calcium and CEC as input parameters was achieved and also, it was possible to determine the soil potential with respect to hydrogen, phosphorous, boron, manganese, zinc, organic matter, calcium, magnesium, sulphur, copper, including soil texture with the help of machine learning models KNN and linear regression algorithms.…”

Section: Literature Reviewmentioning

confidence: 99%

CNN and LSTM Approach for Soil Nutrient analysis for Sugarcane Crop

2024

Preprint

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A new paradigm has been adopted in agricultural techniques, tools, and technology. To guarantee the implementation of site-specific crop management, which includes soil nutrient treatments according to crop requirements, precision agriculture is crucial. Soil nutrients are a major component in determining the growth of precision agriculture, which has gained global attention. One of the main challenges is more effective nutrient content detection as it guides well-planned nutrient-level-boosting routines. Many approaches, such using research labs and additional mobile labs, haven't shown to be very useful in helping farmers control their soil fertility. Taking advantage of the breakthroughs is severely hampered by factors like lack of knowledge and distance from research centers. In the work proposed, LSTM based RNN is employed to predict the Ph and nutrient values of the soil measured through microcontroller using sensor from the agricultural field. At the same time, RELU-CNN approach is applied to the soil images for measuring the same values. The values obtained from both the approaches are compared against each other so that the method may be made directly available to the farmers for evaluating the nutrient level of the soil and take necessary action. The approaches are measured in terms of quality parameters Recall, F1-Score, Accuracy, Precision and RMS value.

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Section: Literature Reviewmentioning

confidence: 99%