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When I run the example code for a random walk using the fractal package:

library(fractal)
## create test series 
set.seed(100)
x <- rnorm(1024)
walk <- cumsum(x)

 ## calculate the Hurst coefficient of a random 
## walk series using various techniques 
methods <- c("aggabs","aggvar","diffvar","higuchi")
z <- lapply(methods, function(method, walk){
hurstBlock(ifelse1(method=="higuchi",diff(walk),walk), method=method)  
},walk=walk )
names(z) <- methods

## plot results 
old.plt <- splitplot(2,2,1)
for (i in 1:4){
    if (i > 1)
       splitplot(2,2,i)
    plot(z[[i]], key=FALSE)
    mtext(paste(attr(z[[i]],"stat.name"), round(as.numeric(z[[i]]),3), sep=", H="),
       line=0.5, adj=1)
}
 par(old.plt)

I do not get hurst exponent of .5? I understand the there are different method of calculations but I believe AggVar is most like the R/S rescale method and for a brownian motion this should return .5 not .94 like it does.

SHouldn't it be .5?

Also if you change

walk <- cumsum(x) to

walk <- x Then this is white noise and I should get a Hurst Exponent of 0. But I dont.

Can you help clarify?

share|improve this question
    
A quick game of google suggests 0.5 corresponds to white noise, not normal (gaussian) distribution. Do you have sources which quote Hurst values for specific distributions? –  Carl Witthoft Feb 19 at 0:14
    
.5 = brownian motion i.e. a pure random walk and 0 = white noise which is pure mean reversion with expectation = 0. This is on wikipedia or any other site. –  user3022875 Feb 19 at 14:44

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