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an analysis software with souce code for the time series with methods based on the theory of nonline

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<H2><A NAME="SECTION00092000000000000000">Iterative Fourier transform method</A></H2>
<P>
Very few real time series which are suspected to show nonlinearity follow a
Gaussian single time distribution. Non-Gaussianity is the simplest kind of
nonlinear signature but it may have a trivial reason: The data may have been
distorted in the measurement process. Thus a possible null hypothesis would be
that there is a stationary Gaussian linear stochastic process that generates a
sequence <IMG WIDTH=32 HEIGHT=24 ALIGN=MIDDLE ALT="tex2html_wrap_inline7961" SRC="img176.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img176.gif">, but the actual observations are <IMG WIDTH=73 HEIGHT=24 ALIGN=MIDDLE ALT="tex2html_wrap_inline7963" SRC="img177.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img177.gif"> where
<IMG WIDTH=22 HEIGHT=24 ALIGN=MIDDLE ALT="tex2html_wrap_inline6547" SRC="img13.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img13.gif"> is a monotonic function. Constrained realizations of this null
hypothesis would require the generation of random sequences with the same power
spectrum (fully specifying the linear process) and the same single time
distribution (specifying the effect of the measurement function) as the
observed data. The <B>A</B>mplitude <B>A</B>djusted <B>F</B>ourier <B>T</B>ransform
(AAFT) method proposed in&nbsp;[<A HREF="citation.html#theiler1" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/citation.html#theiler1">82</A>] attempts to invert the measurement
function <IMG WIDTH=22 HEIGHT=24 ALIGN=MIDDLE ALT="tex2html_wrap_inline6547" SRC="img13.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img13.gif"> by rescaling the data to a Gaussian distribution. Then
the Fourier phases are randomized and the rescaling is inverted. As discussed
in&nbsp;[<A HREF="citation.html#surrowe" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/citation.html#surrowe">83</A>], this procedure is biased towards a flatter spectrum since
the inverse of <IMG WIDTH=22 HEIGHT=24 ALIGN=MIDDLE ALT="tex2html_wrap_inline6547" SRC="img13.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img13.gif"> is not available exactly. In the same reference,
a scheme is introduced that removes this bias by iteratively adjusting the
spectrum and the distribution of the surrogates. Alternatingly, the surrogates
are rescaled to the exact values taken by the data and then the Fourier
transform is brought to the exact amplitudes obtained from the data.
The discrepancy between both steps either converges to zero with the number
of iterations or to a finite inaccuracy which decreases with the length of the
time series. The program <a href="../wuppertal/surrogates.html" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/wuppertal/surrogates.html">surrogates</a> performs iterations until no further
improvement can be made. The last two stages are returned, one having the exact
Fourier amplitudes and one taking on the same values as the data. For not too 
exotic data these two versions should be almost identical. The relative
discrepancy is also printed.
<P>
<P><blockquote><A NAME="6024">&#160;</A><IMG WIDTH=214 HEIGHT=489 ALIGN=BOTTOM ALT="figure1881" SRC="img175.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img175.gif"><BR>
<STRONG>Figure:</STRONG> <A NAME="figb_s">&#160;</A>
   Upper: The human breath rate data from Fig.&nbsp;<A HREF="node23.html#figb" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/node23.html#figb"><IMG  ALIGN=BOTTOM ALT="gif" SRC="icons/cross_ref_motif.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/icons/cross_ref_motif.gif"></A>. Lower:
   the noise component extracted by the noise reduction scheme has been
   randomized in order to destroy correlations with the signal. The result 
   appears slightly but significantly less structured than the original.<BR>
</blockquote><P>
In Fig.&nbsp;<A HREF="node37.html#figb_s" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/node37.html#figb_s"><IMG  ALIGN=BOTTOM ALT="gif" SRC="icons/cross_ref_motif.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/icons/cross_ref_motif.gif"></A> we used this procedure to assess the hypothesis that 
the noise reduction on the breath data reported in Fig.&nbsp;<A HREF="node23.html#figb" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/node23.html#figb"><IMG  ALIGN=BOTTOM ALT="gif" SRC="icons/cross_ref_motif.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/icons/cross_ref_motif.gif"></A> removed 
an additive noise component which was independent of the signal. If the
hypothesis were true, we could equally well add back on the noise sequence
or a randomized version of it which lacks any correlations to the signal.
In the upper panel of Fig.&nbsp;<A HREF="node37.html#figb_s" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/node37.html#figb_s"><IMG  ALIGN=BOTTOM ALT="gif" SRC="icons/cross_ref_motif.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/icons/cross_ref_motif.gif"></A> we show the original data. In the
lower panel we took the noise reduced version (c.f.&nbsp;Fig.&nbsp;<A HREF="node23.html#figb" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/node23.html#figb"><IMG  ALIGN=BOTTOM ALT="gif" SRC="icons/cross_ref_motif.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/icons/cross_ref_motif.gif"></A>, bottom)
and added a surrogate of the supposed noise sequence. The result is similar but
still significantly different from the original to make the additivity
assumption implausible.
<P>
Fourier based randomization schemes suffer from some caveats due to the the
inherent assumption that the data constitutes one period of a periodic signal,
which is not what we really expect. The possible artefacts are discussed for
example in&nbsp;[<A HREF="citation.html#theiler_sfi" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/citation.html#theiler_sfi">84</A>] and can, in summary, lead to spurious rejection
of the null hypothesis. One precaution that should be taken when using
<a href="../wuppertal/surrogates.html" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/wuppertal/surrogates.html">surrogates</a> is to make sure that the beginning and the end of the data
approximately match in value and phase. Then, the periodicity assumption is not
too far wrong and harmless. Usually, this amounts to the loss of a few points
of the series. One should note, however, that the routine may truncate the data
by a few points itself in order to be able to perform a <EM>fast</EM> Fourier
transform which requires the number of points to be factorizable by small prime
factors.
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<P><ADDRESS>
<I>Thomas Schreiber <BR>
Wed Jan  6 15:38:27 CET 1999</I>
</ADDRESS>
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