A class for storing a stratification with compact strata of equal size.
Objects can be created by calls of the form new("CompactStratificationEqualArea", cells, stratumId, centroids, mssd). However, objects are usually created by calling stratify.
cells:Object of class "SpatialPixels", representing the area to be partitioned.
stratumId:Object of class "integer", indicating to which stratum each cell in cells belong.
centroids:Object of class "SpatialPoints", representing the centers of gravity of each stratum.
mssd:Object of class "numeric", representing the mean squared shortest distance.
Class "CompactStratification", directly.
Class "Stratification", by class "CompactStratification", distance 2.
signature(statistic = "SamplingVariance", stratification = "CompactStratificationEqualArea", samplingPattern = "SamplingPatternRandomComposite", data = "data.frame"): estimates the sampling variance. See "SamplingVariance" for more details.
signature(statistic = "SpatialMean", stratification = "CompactStratificationEqualArea", samplingPattern = "SamplingPatternRandomComposite", data = "data.frame"): estimates the spatial mean. See "SpatialMean" for more details.
signature(x = "CompactStratificationEqualArea", n = "missing", type = "missing"): returns the centers of gravity of each stratum.
signature(x = "CompactStratificationEqualArea", n = "numeric", type = "missing"): randomly selects n sampling points in each stratum.
signature(x = "CompactStratificationEqualArea", n = "numeric", type = "character"): randomly selects n sampling points in each stratum. if type = "composite", stratified simple random sampling of \(n\) composites.
Dennis J. J. Walvoort dennis.walvoort@wur.nl, D.J. Brus, J.J. de Gruijter