sim: Simulate Soil Profiles

Description

Simulate a collection of soil profiles based on the horizonation of a single soil profile.

Usage

sim(x, n=1, iterations=25, hz.sd=2, min.thick=2)

Arguments

a SoilProfileCollection object containing a single profile from which to draw simulated data

the number of requested simulations

iterations

sampling iterations used to determine each horizon thickness

hz.sd

standard deviation used to simulate horizon thickness, can be a vector but must divide evenly into the number of horizons found in x

min.thick

minumum horizon thickness allowed in simulation results

Value

A SoilProfileCollection object with n simulated profiles, each containing the same number of horizons and same data as x.

Details

This function generates a collection of simulated soil profiles based on the horizon thickness data associated with a single "template" profile. Simulation is based on sampling from a family of gaussian distribution with means defined by the "template" profile and standard deviation defined by the user.

Examples

Run this code

# NOT RUN {
# load sample data and convert into SoilProfileCollection
data(sp3)
depths(sp3) <- id ~ top + bottom

# select a profile to use as the basis for simulation
s <- sp3[3, ]

# reset horizon names
s$name <- paste('H', seq_along(s$name), sep='')

# simulate 25 new profiles, using 's' and function defaults
sim.1 <- sim(s, n=25)

# simulate 25 new profiles using 's' and variable SD for each horizon
sim.2 <- sim(s, n=25, hz.sd=c(1, 2, 5, 5, 5, 10, 2))

# plot
par(mfrow=c(2,1), mar=c(0, 0, 0, 0))
plot(sim.1)
mtext('SD = 2', side=2, line=-1.5, font=2, cex=0.75)
plot(sim.2)
mtext('SD = c(1, 2, 5, 5, 5, 10, 2)', side=2, line=-1.5, font=2, cex=0.75)

# aggregate horizonation of simulated data
# note: set class_prob_mode=2 as profiles were not defined to a constant depth
sim.2$name <- factor(sim.2$name)
a <- slab(sim.2, ~ name, class_prob_mode=2)

# convert to long format for plotting simplicity
library(reshape)
a.long <- melt(a, id.vars=c('top','bottom'), measure.vars=levels(sim.2$name))

# plot horizon probabilities derived from simulated data
# dashed lines are the original horizon boundaries
library(lattice)
xyplot(top ~ value, groups=variable, data=a.long, subset=value > 0,
ylim=c(100, -5), type=c('l','g'), asp=1.5,
ylab='Depth (cm)', xlab='Probability', 
auto.key=list(columns=4, lines=TRUE, points=FALSE),
panel=function(...) {
panel.xyplot(...)
panel.abline(h=s$top, lty=2, lwd=2)
})

# }