Abstract
This study investigated the relationships between the electrical and selected mechanical properties of soil. The analyses focused on comparing various modeling relationships under study methods that included machine learning methods. The input parameters of the models were apparent soil electrical conductivity and magnetic susceptibility measured at depths of 0.5 m and 1 m. Based on the models, shear stress and soil compaction were predicted. Neural network models outperformed support vector machines and multiple linear regression techniques. Exceptional models were developed using a multilayer perceptron neural network for shear stress (R = 0.680) and a function neural network for soil compaction measured at a depth of 0–0.5 m and 0.4–0.5 m (R = 0.812 and R = 0.846, respectively). Models of very low accuracy (R < 0.5) were produced by the multiple linear regression.
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference78 articles.
1. Precision Ag Definition
https://ispag.org/about/definition
2. Particle size distribution and textural classes of soils and mineral materials—Classification of Polish Society of Soil Sciences;Soil Sci. Ann.,2009
3. Soil Electrical Conductivity;Lund,2008
4. What Is Soil Electrical Conductivity?
https://www.lsuagcenter.com/portals/communications/publications/publications_catalog/crops_livestock/farm_equipment/what-is-soil-electrical-conductivity
5. The use of electromagnetic induction to detect the spatial variability of the salt and clay contents of soils
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