randomize_cool.html

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

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<head><title>Cooling schemes</title></head>
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<h3>Cooling schemes</h3>

The <a href="randomize_extend.html" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/wuppertal/randomize_extend.html">extendable</a> family of routines for the
generation of annealed surrogate data can accomodate a variety of cooling
schemes for the simulated annealing procedure. In this version,
the only available module implements an exponential schedule.

<h4>Exponential cooling</h4>
<p>
<font color=blue><tt>randomize_</tt><em>cost</em>
<tt>_</tt><font color=red><tt>exp</tt></font><tt>_</tt><em>perm</em><tt> [-T#
-a# -S# -s# -z# -C#] 
<br>&nbsp;&nbsp;&nbsp;&nbsp;[</tt><em>general options</em><tt>] [</tt><em>cost function options</em><tt>] [</tt><em>permutation options</em><tt>] </tt><em>file</em></font>
<blockquote>
     <font color=blue><tt> -T </tt></font>
   initial temperature (default: automatic melting)
<br> <font color=blue><tt> -a </tt></font>cooling factor (default automatic:
   try fast cooling, start over if no more improvement)
<br> <font color=blue><tt> -S </tt></font>
   total steps before cooling (default 20000)
<br> <font color=blue><tt> -s </tt></font>
   successful steps before cooling (default 2000)
<br> <font color=blue><tt> -z </tt></font>
   minimal successful steps (default 200)
<br> <font color=blue><tt> -C </tt></font>
   goal value of cost function (default zero)
</blockquote>
Starting from the initial temperature <font color=blue><tt>-T</tt></font>, 
the temperature is multiplied by a factor <font color=blue><tt>-a</tt></font>
whenever either <font color=blue><tt>-S</tt></font> steps have been tried or
<font color=blue><tt>-s</tt></font> accepted changes have been performed.
Cooling is finished if the cost has been brought below <font
color=blue><tt>-C</tt></font>. Generally, considerable experimentation is
necessary or at least strongly recommended since annealing can eat an infinite
amount of CPU time. 
<p>
If the initial temperature is not given, the program starts with a fairly low
one (whatever that means) and increases it for melting if necessary, that is
if, initially, the number of trials exceeds 1.5 times the number of successes.
<p>
If no cooling factor is given, the program starts with a fairly fast scheme
(factor 0.5). If after complete freezing (less than <font
color=blue><tt>-z</tt></font> succeses) the goal <font
color=blue><tt>-C</tt></font> has not been reached, the system is restarted
with half the exponential rate (a is replaced by sqrt(a)) and a larger value of
<font color=blue><tt>-S</tt></font>. This procedure is less than optimal but
hoped to eventually converge.
<p>
<font color=red><b>Note:</b></font> if neither <font
color=blue><tt>-a</tt></font> nor <font color=blue><tt>-C</tt></font> are
given, the annealing will keep staring over with slower cooling rates. This may
be necessary if good guesses are not available but of course, multiple
surrogates will then have to be made by further separate calls.
<p>

    <a href="randomize.html" tppabs="http://www.mpipks-dresden.mpg.de/~tisean/TISEAN_2.0/docs/wuppertal/randomize.html">constrained randomization</a> *
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