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关于自组织神经网络的一种新结构程序,并包含了其它几种神经网络的程序比较

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5.4.7 </A>
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<DL>
<DT><STRONG>Grid size</STRONG>
<DD>The form of the grid and the number of nodes are determined.
<DT><STRONG>epsilon_i</STRONG>
<DD>epsilon initial (<IMG WIDTH="14" HEIGHT="24" ALIGN="MIDDLE" BORDER="0"
 SRC="img10.gif"
 ALT="$\epsilon_i$">).
<DT><STRONG>epsilon_f</STRONG>
<DD>epsilon final (<IMG WIDTH="17" HEIGHT="24" ALIGN="MIDDLE" BORDER="0"
 SRC="img11.gif"
 ALT="$\epsilon_f$">).
<DT><STRONG>sigma_i</STRONG>
<DD>sigma initial (<IMG WIDTH="17" HEIGHT="24" ALIGN="MIDDLE" BORDER="0"
 SRC="img26.gif"
 ALT="$\sigma_i$">).
<DT><STRONG>sigma_f</STRONG>
<DD>sigma final (<IMG WIDTH="20" HEIGHT="24" ALIGN="MIDDLE" BORDER="0"
 SRC="img27.gif"
 ALT="$\sigma_f$">).
<DT><STRONG>t_max</STRONG>
<DD>The simulation ends, if the number of input signals
exceed this value (<I>t</I><SUB><I>max</I></SUB>).
</DL>
Determine <IMG WIDTH="27" HEIGHT="28" ALIGN="MIDDLE" BORDER="0"
 SRC="img28.gif"
 ALT="$\epsilon(t)$"> and <IMG WIDTH="30" HEIGHT="28" ALIGN="MIDDLE" BORDER="0"
 SRC="img29.gif"
 ALT="$\sigma(t)$"> according to

<P ALIGN="CENTER"><IMG WIDTH="145" HEIGHT="27"
 SRC="img30.gif"
 ALT="\begin{displaymath}
\epsilon(t) = \epsilon_i(\epsilon_f/\epsilon_i)^{t/t_{\rm max}},\end{displaymath}"></P>

<P ALIGN="CENTER"><IMG WIDTH="156" HEIGHT="27"
 SRC="img31.gif"
 ALT="\begin{displaymath}
\sigma(t) = \sigma_i(\sigma_f/\sigma_i)^{t/t_{\rm max}}.\end{displaymath}"></P>
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<ADDRESS>
<I>Hartmut S. Loos</I>
<BR><I>10/19/1998</I>
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