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mht matlab central file exchange - auto contrast.mht

From: Subject: MATLAB Central File Exchange - AUTO CONTRAST Date: Thu, 10 May 2007 17:41:47 +0800 MIME-Version: 1.0 Content-Type: multipart/related; type="te
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mht matlab central file exchange - auto brigthness.mht

From: Subject: MATLAB Central File Exchange - AUTO BRIGTHNESS Date: Thu, 10 May 2007 17:40:18 +0800 MIME-Version: 1.0 Content-Type: multipart/related; type="
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m exm110423_1.m

cd c:\ WINDOWS\Applic~1\MathWorks\MATLAB\R12 %将此目录设为当前工作目录 %打印文本文件mccstartup的内容 type C:\WINDOWS\Applic~1\MathWorks\MATLAB\R12\mccstartup !copy mccstartup h:\mywork\temp %将mccstartup转移到临时目录下 !
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m angles.m

function p = angles(h) %ANGLE Phase angle. % ANGLE(H) returns the phase angles, in radians, of a matrix with % complex elements. % % See also ABS, UNWRAP. % Copyright 1984-2000 The
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m logo2.m

%LOGO Plot the L-shaped membrane logo with MATLAB 5 lighting. % Copyright (c) 1984-98 by The MathWorks, Inc. % $Revision: 5.12 $ $Date: 1998/09/29 16:15:48 $ if exist('GalleryGUIFlag'),
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m solvelin.m

function [w,b] = solvelin(p,t) %SOLVELIN Design linear network. % % [W,B] = SOLVELIN(P,T) % P - RxQ matrix of Q input vectors. % T - SxQ matrix of Q target vectors. % Returns: % W - SxR weight
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m normr.m

function n = normr(m) %NORMR Normalize rows of matrix. % % NORMR(M) % M - a matrix. % Returns a matrix the same size with each % row normalized to a vector length of 1. % % See also NORMC, PNORMC.
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m nndalay2.m

function yprime = nndalay2(t,y) %NNDALAY2 Calculates the derivative for layer 2 of the Grossberg network % % NNDALAY2(t,y) % t - Current time % y - Current output % Returns dy. % $Rev
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m nndpend.m

function yprime = nndpend(t,y) %NNDPEND Dynamical model of a pendulum. % % NNDPEND(T,Y) % T - Time % Y - State = [angle; angular velocity] % Returns Derivative of state vector. % $
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m nndhop.m

function yprime = nndhop(t,y) %NNDHOP Calculates the derivative for Hopfield network % % NNDHOP(t,y) % t - Current time % y - Current output % Returns dy. % Copyright 1994-2002 PWS Pu
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