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<H2><A NAME="SECTION00061000000000000000">Including non-stationarity</A></H2>
<A NAME="secincluding">&#160;</A>
<P>
Constrained randomisation using combinatorial minimisation is a very flexible
method since in principle arbitrary constraints can be realised. Although it
is seldom possible to specify a formal null hypothesis for more general
constraints, it can be quite useful to be able to incorporate into the
surrogates any feature of the data that is understood already or that is
uninteresting. Non-stationarity has been excluded so far by requiring the
equations defining the null hypothesis to remain constant in time. This has a
two-fold consequence. First, and most importantly, we must keep in mind that
the test will have discrimination power against non-stationary signals as a
valid alternative to the null hypothesis. Thus a rejection can be due to
nonlinearity or non-stationarity equally well.
<P>
<blockquote><A NAME="964">&#160;</A><IMG WIDTH=359 HEIGHT=287 ALIGN=BOTTOM ALT="figure1079" SRC="img131.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/surropaper/img131.gif"><BR>
<STRONG>Figure:</STRONG> Non-stationary financial time series (BUND Future returns, top)
      and a surrogate (bottom) preserving the non-stationary structure
      quantified by running window estimates of the local mean and variance
      (middle).<A NAME="figbund">&#160;</A><BR>
</blockquote>

Second, if we do want to include non-stationarity in the null hypothesis we
have to do so explicitly. Let us illustrate how this can be done with an
example from finance. The time series consists of 1500 daily returns (until the
end of 1996) of the <EM>BUND Future</EM>, a derived German financial instrument.
The data were kindly provided by Thomas Sch&#252;rmann, WGZ-Bank D&#252;sseldorf. As
can be seen in the upper panel of Fig.&nbsp;<A HREF="node23.html#figbund" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/surropaper/node23.html#figbund">13</A>, the sequence is
non-stationary in the sense that the local variance and to a lesser extent also
the local mean undergo changes on a time scale that is long compared to the
fluctuations of the series itself. This property is known in the statistical
literature as <EM>heteroscedasticity</EM> and modelled by the so-called
GARCH&nbsp;[<A HREF="node36.html#garch" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/surropaper/node36.html#garch">40</A>] and related models. Here, we want to avoid the construction
of an explicit model from the data but rather ask the question if the data is
compatible with the null hypothesis of a correlated linear stochastic process
with time dependent local mean and variance. We can answer this question in a
statistical sense by creating surrogate time series that show the same linear
correlations and the same time dependence of the running mean and running
variance as the data and comparing a nonlinear statistic between data and
surrogates. The lower panel in Fig.&nbsp;<A HREF="node23.html#figbund" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/surropaper/node23.html#figbund">13</A> shows a surrogate time
series generated using the annealing method.  The cost function was set up to
match the autocorrelation function up to five days and the moving mean and
variance in sliding windows of 100 days duration.  In Fig.&nbsp;<A HREF="node23.html#figbund" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/surropaper/node23.html#figbund">13</A> the
running mean and variance are shown as points and error bars, respectively, in
the middle trace. The deviation of these between data and surrogate has been
minimised to such a degree that it can no longer be resolved.  A comparison of
the time-asymmetry statistic Eq.(<A HREF="node3.html#eqskew" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/surropaper/node3.html#eqskew">3</A>) for the data and 19 surrogates
did not reveal any discrepancy, and the null hypothesis could not be rejected.
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<P><ADDRESS>
<I>Thomas Schreiber <BR>
Mon Aug 30 17:31:48 CEST 1999</I>
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