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Attribute selection impact on linear and nonlinear regression models for crop yield prediction.

Authors :
Gonzalez-Sanchez A
Frausto-Solis J
Ojeda-Bustamante W
Source :
TheScientificWorldJournal [ScientificWorldJournal] 2014; Vol. 2014, pp. 509429. Date of Electronic Publication: 2014 May 26.
Publication Year :
2014

Abstract

Efficient cropping requires yield estimation for each involved crop, where data-driven models are commonly applied. In recent years, some data-driven modeling technique comparisons have been made, looking for the best model to yield prediction. However, attributes are usually selected based on expertise assessment or in dimensionality reduction algorithms. A fairer comparison should include the best subset of features for each regression technique; an evaluation including several crops is preferred. This paper evaluates the most common data-driven modeling techniques applied to yield prediction, using a complete method to define the best attribute subset for each model. Multiple linear regression, stepwise linear regression, M5' regression trees, and artificial neural networks (ANN) were ranked. The models were built using real data of eight crops sowed in an irrigation module of Mexico. To validate the models, three accuracy metrics were used: the root relative square error (RRSE), relative mean absolute error (RMAE), and correlation factor (R). The results show that ANNs are more consistent in the best attribute subset composition between the learning and the training stages, obtaining the lowest average RRSE (86.04%), lowest average RMAE (8.75%), and the highest average correlation factor (0.63).

Details

Language :
English
ISSN :
1537-744X
Volume :
2014
Database :
MEDLINE
Journal :
TheScientificWorldJournal
Publication Type :
Academic Journal
Accession number :
24977201
Full Text :
https://doi.org/10.1155/2014/509429