Getis–Ord’s hot- and cold-spot statistics as a basis for multivariate spatial clustering of orchard tree data

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We propose a multivariate spatial clustering approach for partitioning orchard data.Data is spatially scaled by Getis-Ord GiÂ? statistic, followed by k-means clustering.Trees are discriminated into spatially homogeneous groups.Feasibility and performance were assessed in comparison to k-means clustering.Results improved cluster discrimination and representation of spatial structure. Precision agriculture aims at sustainably optimizing the management of cultivated fields by addressing the spatial variability found in crops and their environment. Spatial variability can be evaluated using spatial cluster analysis, which partitions data into homogeneous groups, considering the geographical location of features and their spatial relationships. Spatial clustering methods evaluate the degree of spatial autocorrelation between features and quantify the statistical significance of identified clusters. Clustering of orchard data calls for an approach which is based on modeling point data, i.e. individual trees, which can be related to site-specific measurements. We present and evaluate a spatial clustering method using the Getis-Ord GiÂ? statistic to the analysis of tree-based data in an experimental orchard. We examine the robustness of this method for the analysis of hot-spots (clusters of high data values) and cold-spots (clusters of low data values) in orchards and compare it to the k-means clustering algorithm, a widely-used aspatial method. We then present a novel approach which accounts for the spatial structure of data in a multivariate cluster analysis by combining the spatial Getis-Ord GiÂ? statistic with k-means multivariate clustering. The combined method improved results by both discriminating among features values as well as representing their spatial structure and therefore represents a superior technique for identifying homogenous spatial clusters in orchards. This approach can be used as a tool for precision management of orchards by partitioning trees into management zones.