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I would like calculate the Hurst exponent with R. Is there a library or built in function that can do this? any suggestion will be appreciated (even weblinks to references). thanx

update: thanx to the comment of Ben Bolker, i have found this script in the example of the function

hurst.est(wspec, range, nvoice, plot=TRUE)

at this page http://finzi.psych.upenn.edu/R/library/Rwave/html/hurst.est.html

script:

wnoise <- rnorm(8192)
plot.ts(wnoise)
spwnoise <- fft(wnoise)
spwnoise <- Mod(spwnoise)
spwnoise <- spwnoise*spwnoise
plot(spwnoise[1:4096], log="xy", type="l")
lswnoise <- lsfit(log10(1:4096), log10(spwnoise[1:4096]))
abline(lswnoise$coef)
cwtwnoise <- DOG(wnoise, 10, 5, 1, plot=FALSE)
mcwtwnoise <- Mod(cwtwnoise)
mcwtwnoise <- mcwtwnoise*mcwtwnoise
wspwnoise <- tfmean(mcwtwnoise, plot=FALSE)
wspec.pl(wspwnoise, 5)
hurst.est(wspwnoise, 1:50, 5)

i guess that the first part generate a signal with memory effect, but i can't understand wich part of the second part of code is strictly necessary to extimate the hurst exponent. Who can help me and would explain this? I am in doubt with

mcwtwnoise <- Mod(cwtwnoise)
mcwtwnoise <- mcwtwnoise*mcwtwnoise 
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7  
install.packages("sos"); library("sos"); findFn("hurst exponent") –  Ben Bolker Feb 24 '12 at 15:22
    
Ben I was just cominf back to reply with exactly thee same comment. +1 for teaching a man to fish. –  Tyler Rinker Feb 24 '12 at 15:26
2  
@Tyler: you know the rule, "... teach a man to fish and you've lost a customer for life" :-) –  Carl Witthoft Feb 24 '12 at 16:01
2  
@Carl these customers don't pay :) –  Tyler Rinker Feb 24 '12 at 16:03
4  
mindprod.com/jgloss/unmainmisc.html : "If you give someone a program, you will frustrate them for a day; if you teach them how to program, you will frustrate them for a lifetime." –  Ben Bolker Feb 24 '12 at 16:38

3 Answers 3

up vote 2 down vote accepted

(Converted from a comment.)

This isn't exactly an answer, but

install.packages("sos")
library("sos")
findFn("hurst exponent")

should get you there pretty quickly. Notes: (1) you only need to do install.packages(...) once per installation of R, but library("sos") in every session; (2) you still need to work out whether the packages that you find this way are doing what you need -- but at least you know where to start.

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1  
Yes -- but you can just search at rseek.org –  Dirk Eddelbuettel Feb 24 '12 at 16:59
3  
Agreed Dirk but I personally think that the results from sos are a little more easy to sift through and focused (I guess they're aesthetically pleasing). –  Tyler Rinker Feb 24 '12 at 20:52

Hurst exponent, H, can be calculated from fractal dimension, D, as D = 2 - H.

I use the fractaldim package, available CRAN, to calculate fractal dimension. There is a complete description of the methodologies in Estimators of Fractal Dimension: Assessing the Roughness of Time Series and Spatial Data. University of Washington, Department of Statistics, Technical Report no. 577, http://www.stat.washington.edu/research/reports/2010/tr577.pdf.

With this package you can apply wavelet transforms, boxcount, etc. or the recommended madogram algorithm to calculate fractal dimension.

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The Rwave package uses a wavelet transform to estimate the Hurst exponent so you might want to try the fArma package. It has a variety of other functions to estimate the Hurst exponent aside from wavelets. Isn't listed on CRAN other than an archive for now but it works for me.

Here's the relevant documentation section from the package. http://rgm2.lab.nig.ac.jp/RGM2/func.php?rd_id=fArma:LrdModelling

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