@RSStatistic computes the R/S (rescaled range) statistic for a single sample. It can either compute the classical R/S statistic, or Lo's modified version. This is used in analyzing long-term memory of a process. See
Mandelbrot and Wallis(1969), "Computer Experiments with Fractional Gaussian Noise", Water Resources Res., vol 5, 228-267.
Lo(1991) "Long-term Memory in Stock Market Prices", Econometrica, vol 59, 1279-1313.
Detailed description
RSSTATISTIC—Calculates R/S Statistic
stock market prices and long-range dependence
Dear Tom,
I was replicating the results of the paper : Willinger, Taqqu and Teverovsky(1999), "Stock Market Prices and Long-Range Dependence", Finance and Stochastics, vol 3 pp 1-13. The values of H turn out to be more or less the same given in the paper. I must appreciate your efforts.
I would like to get the values of AR and MA coefficients [(-0.16, -0.40)] mentioned by the authors on page number 10 of the paper. Could you please help me? On page number 11, first paragraph, author referred the value of H=0.58 for blocks of 20 which turns out to be 0.6557 if we run the programme. Since the variation is large, I think I should report it to you.
On the same page, the author refers the value of H=0.5 in the lase line of second paragraph. May I know how do I get it? Do we have to use the following programme?
boot(block=40,method=nooverlap) shuffle
set reshuffle = ew(shuffle(t))
@hurst(header="R/S Analysis of Block Shuffled Returns") reshuffle
If I run it, I get the value of H=0.64851 not 0.5?
Please reply,
With regards,
Prashant
I was replicating the results of the paper : Willinger, Taqqu and Teverovsky(1999), "Stock Market Prices and Long-Range Dependence", Finance and Stochastics, vol 3 pp 1-13. The values of H turn out to be more or less the same given in the paper. I must appreciate your efforts.
I would like to get the values of AR and MA coefficients [(-0.16, -0.40)] mentioned by the authors on page number 10 of the paper. Could you please help me? On page number 11, first paragraph, author referred the value of H=0.58 for blocks of 20 which turns out to be 0.6557 if we run the programme. Since the variation is large, I think I should report it to you.
On the same page, the author refers the value of H=0.5 in the lase line of second paragraph. May I know how do I get it? Do we have to use the following programme?
boot(block=40,method=nooverlap) shuffle
set reshuffle = ew(shuffle(t))
@hurst(header="R/S Analysis of Block Shuffled Returns") reshuffle
If I run it, I get the value of H=0.64851 not 0.5?
Please reply,
With regards,
Prashant
Re: stock market prices and long-range dependence
I posted an updated version of this at http://www.estima.com/forum/viewtopic.php?f=8&t=2059 which uses better guess values for the estimation of the ARFIMA.prashantj wrote:Dear Tom,
I was replicating the results of the paper : Willinger, Taqqu and Teverovsky(1999), "Stock Market Prices and Long-Range Dependence", Finance and Stochastics, vol 3 pp 1-13. The values of H turn out to be more or less the same given in the paper. I must appreciate your efforts.
I would like to get the values of AR and MA coefficients [(-0.16, -0.40)] mentioned by the authors on page number 10 of the paper. Could you please help me?
The calculation of the Hurst exponent depends upon the range over which the regression of the log(R/S) to log(N) is done. Different subranges makes different estimates.prashantj wrote: On page number 11, first paragraph, author referred the value of H=0.58 for blocks of 20 which turns out to be 0.6557 if we run the programme. Since the variation is large, I think I should report it to you.
.5 is the value for a process without long memory. Those are bootstrapped values, so there is no way to reproduce a value that they show in the paper.prashantj wrote: On the same page, the author refers the value of H=0.5 in the lase line of second paragraph. May I know how do I get it? Do we have to use the following programme?
boot(block=40,method=nooverlap) shuffle
set reshuffle = ew(shuffle(t))
@hurst(header="R/S Analysis of Block Shuffled Returns") reshuffle
If I run it, I get the value of H=0.64851 not 0.5?
Last bumped by TomDoan on Tue Aug 07, 2018 9:01 am.