RFfractaldim: RFfractaldimension

Description

The function estimates the fractal dimension of a process

Usage

RFfractaldim(x, y = NULL, z = NULL, data, grid, 
 bin=NULL,
 vario.n=5,
 sort=TRUE,
 fft.m = c(65, 86), ## in fft.max.length=Inf, fft.max.regr=150000,
 fft.shift = 50, # in method=c("variogram", "fft"), mode = if (interactive ()) c("plot", "interactive") else "nographics", pch=16, cex=0.2, cex.main=0.85,
 printlevel = RFoptions()$general$printlevel,
 height=3.5,
 ...)

Arguments

matrix of coordinates, or vector of x coordinates; if x is not given and data is not an sp object, a grid with unit grid length is assumed

vector of y coordinates

vector of z coordinates

data

the values measured; it can also be an sp object

grid

determines whether the vectors x, y, and z should be interpreted as a grid definition, see Details. grid does not apply for T.

bin

sequence of bin boundaries for the empirical variogram

vario.n

first vario.n values of the empirical variogram are used for the regression fit that are not NA.

sort

If TRUE then the coordinates are permuted such that the largest grid length is in x-direction; this is of interest for algorithms that slice higher dimensional fields into one-dimensional sections.

fft.m

numeric vector of two components; interval of frequencies for which the regression should be calculated; the interval is given in percent of the range of the frequencies in log scale.

fft.max.length

The first dimension of the data is cut into pieces of length fft.max.length. For each piece the FFT is calculated and then the average for all pieces is taken. The pieces may overlap, see the argument fft.shift.

fft.max.regr

If the fft.m is too large, parts of the regression fit will take a very long time. Therefore, the regression fit is calculated only if the number points given by fft.m is less than fft.max.regr.

fft.shift

This argument is given in percent [of fft.max.length] and defines the overlap of the pieces defined by fft.max.length. If fft.shift=50 the WOSA estimator is given; if fft.shift=100 no overlap exist.

method

list of implemented methods to calculate the fractal dimension; see Details

mode

character. A vector with components 'nographics', 'plot', or 'interactive': [object Object],[object Object],[object Object] Usually only one mode is given. Two modes may make sense in the combination c("pl

pch

vector or scalar; sign by which data are plotted.

cex

vector or scalar; size of pch.

cex.main

The size of the title in the regression plots.

printlevel

integer. If printlevel is 0 nothing is printed. If printlevel=1 error messages are printed. If printlevel=2 warnings and the regression results are given. If printlevel>2 tracing information is given

height

height of the grahics window

...

graphical arguments

Value

The function returns a list with elements vario, fft corresponding to the 2 methods given in the Details.
Each of the elements is itself a list that contains the following elements.
xthe x-coordinates used for the regression fit
ythe y-coordinates used for the regression fit
regrthe return list of the lm.
smsmoothed curve through the (x,y) points
x.uNULL or the restricted x-coordinates given by the user in the interactive plot
y.uNULL or y-coordinates according to x.u
regr.uNULL or the return list of lm for x.u and y.u
Dthe fractal dimension
D.uNULL or the fractal dimension corresponding to the user's regression line

Details

The function calculates the fractal dimension by various methods:

variogram method % \item box counting % \item min / max method
Fourier transform

References

variogram method

Constantine, A.G. and Hall, P. (1994) Characterizing surface smoothness via estimation of effective fractal dimension.J. R. Statist. Soc. Ser. B56, 97-113.

fft

Chan, Hall and Poskitt (1995)

Examples

Run this code

RFoptions(seed=0) ## *ANY* simulation will have the random seed 0; set
##                   RFoptions(seed=NA) to make them all random again
StartExample(reduced=50)
x <- seq(0, 10, 0.001)
z <- RFsimulate(RMexp(), x)
RFfractaldim(data=z)
FinalizeExample()

Run the code above in your browser using DataLab