Optimization of management zone delineation by using spatial principal components

Optimization of management zone delineation by using spatial principal components

•Variable selection techniques were evaluated jointly with the Fuzzy C-means algorithm.•A new variable selection approach, for defining management zones, was proposed.•The new approach, named MPCA-SC, provided the best performance for the Fuzzy C-means.•MPCA-SC provided management zones more viable...

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Bibliographic Details
Published in:Computers and electronics in agriculture Vol. 127; pp. 302 - 310
Main Authors: Gavioli, Alan, de Souza, Eduardo Godoy, Bazzi, Claudio Leones, Guedes, Luciana Pagliosa Carvalho, Schenatto, Kelyn
Format: Journal Article
Language:English
Published: Elsevier B.V 01-09-2016
Subjects:
Algorithms
Clustering
Crops
Electronics
Fuzzy
Fuzzy C-means
Homogeneity
Management
Mathematical models
Moran’s index
MULTISPATI-PCA
PCA
Precision agriculture
Precision agriculture
Fuzzy C-means
MULTISPATI-PCA
Moran’s index
PCA
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Summary:•Variable selection techniques were evaluated jointly with the Fuzzy C-means algorithm.•A new variable selection approach, for defining management zones, was proposed.•The new approach, named MPCA-SC, provided the best performance for the Fuzzy C-means.•MPCA-SC provided management zones more viable from the viewpoint of field operations. Definition of management zones is the delimitation of sub-areas with similar topographic, soil and crop characteristics within a field. Among the many variables that can be used for this definition, those that are stable and spatially correlated with yield are more often recommended for use. Clustering algorithms such as Fuzzy C-means are also frequently applied to define management zones. Three variable selection techniques that can be applied with Fuzzy C-means are spatial correlation analysis, principal component analysis (PCA), and multivariate spatial analysis based on Moran’s index PCA (MULTISPATI-PCA). In this study, the efficiency of each of these three techniques used in conjunction with the clustering method was assessed. Furthermore, a new variable selection approach, named MPCA-SC, based on the combined use of Moran’s bivariate spatial autocorrelation statistic and MULTISPATI-PCA, was proposed and tested. The evaluation was performed by using data collected from 2010 to 2014 from three agricultural areas in Paraná State, Brazil, with corn and soybean crops, generating two, three, and four classes. The delineated management zones were different according to the method used, and MPCA-SC provided the best performance for the Fuzzy C-means algorithm and the best variance reduction values of the data after the delimitation of the sub-areas. Furthermore, MPCA-SC provided management zones with greater internal homogeneity, making them more viable for implementation from the viewpoint of field operations.
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ISSN:0168-1699
1872-7107
DOI:10.1016/j.compag.2016.06.029