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<H2><A NAME="SECTION00031000000000000000">Delay coordinates</A></H2>
<P>
The most important phase space reconstruction technique is the <EM>method of
delays</EM>. Vectors in a new space, the embedding space, are formed from time
delayed values of the scalar measurements:
<BR><A NAME="eqdelay">&#160;</A><IMG WIDTH=500 HEIGHT=18 ALIGN=BOTTOM ALT="equation4416" SRC="img15.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img15.gif"><BR>
The number <I>m</I> of elements is called the <EM>embedding dimension</EM>, the time
<IMG WIDTH=8 HEIGHT=7 ALIGN=BOTTOM ALT="tex2html_wrap_inline6553" SRC="img16.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img16.gif"> is generally referred to as the <EM>delay</EM> or <EM>lag</EM>.  Celebrated
embedding theorems by Takens&nbsp;[<A HREF="citation.html#takens" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/citation.html#takens">21</A>] and by Sauer et al.&nbsp;[<A HREF="citation.html#embed" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/citation.html#embed">22</A>]
state that if the sequence <IMG WIDTH=30 HEIGHT=24 ALIGN=MIDDLE ALT="tex2html_wrap_inline6549" SRC="img14.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img14.gif"> does indeed consist of scalar measurements
of the state of a dynamical system, then under certain genericity assumptions,
the time delay embedding provides a one-to-one image of the original set
<IMG WIDTH=23 HEIGHT=24 ALIGN=MIDDLE ALT="tex2html_wrap_inline6557" SRC="img17.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img17.gif">, provided <I>m</I> is large enough.
<P>
Time delay embeddings are used in almost all methods described in this
paper. The implementation is straightforward and does not require further
explanation.  If <I>N</I> scalar measurements are available, the number of embedding
vectors is only <IMG WIDTH=96 HEIGHT=24 ALIGN=MIDDLE ALT="tex2html_wrap_inline6563" SRC="img18.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img18.gif">. This has to be kept in mind for the correct
normalization of averaged quantities. There is a large literature on the
``optimal'' choice of the embedding parameters <I>m</I> and <IMG WIDTH=8 HEIGHT=7 ALIGN=BOTTOM ALT="tex2html_wrap_inline6553" SRC="img16.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img16.gif">. It turns out,
however, that what constitutes the optimal choice largely depends on the
application. We will therefore discuss the choice of embedding parameters
occasionally together with other algorithms below.
<P>
<P><blockquote><A NAME="4404">&#160;</A><IMG WIDTH=222 HEIGHT=481 ALIGN=BOTTOM ALT="figure190" SRC="img7.gif" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/img7.gif"><br>
<STRONG>Figure:</STRONG> <A NAME="figmcgd">&#160;</A>
   Time delay representation of a human magneto-cardiogram. In the upper panel,
   a short delay time of 10&nbsp;ms is used to resolve the fast waveform
   corresponding to the contraction of the ventricle. In the lower panel, the
   slower recovery phase of the ventricle (small loop) is better resolved due
   to the use of a slightly longer delay of 40&nbsp;ms.  Such a plot can be
   conveniently be produced by a graphic tool such as 
   <a href="../../../../../tppmsgs/msgs0.htm#19" tppabs="http://www.cs.dartmouth.edu/gnuplot_info.html">gnuplot</a> without
   generating extra data files.<BR>
</blockquote><P>
A stand-alone version of the delay procedure (<a
href="../../../../../tppmsgs/msgs0.htm#40" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/dresden/delay.html">delay</a>) is an
important tool for the visual inspection of data, even though visualization is
restricted to two dimensions, or at most two-dimensional projections of
three-dimensional renderings. A good unfolding already in two dimensions may
give some guidance about a good choice of the delay time for higher
dimensional embeddings.  As an example let us show two different
two-dimensional delay coordinate representations of a human magneto-cardiogram
(Fig.&nbsp;<A HREF="node6.html#figmcgd" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/node6.html#figmcgd"><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>). Note that we do neither assume nor claim that the
magneto- (or electro-) cardiogram is deterministic or even chaotic. Although
in the particular case of cardiac recordings the use of time delay embeddings
can be motivated theoretically&nbsp;[<A HREF="citation.html#marcus" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/chaospaper/citation.html#marcus">23</A>], we here only want to use the
embedding technique as a visualization tool.
<P>
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<P><ADDRESS>
<I>Thomas Schreiber <BR>
Wed Jan  6 15:38:27 CET 1999</I>
</ADDRESS>
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