代码搜索:Normalized
找到约 4,216 项符合「Normalized」的源代码
代码结果 4,216
www.eeworm.com/read/263516/11359186
m fm_component.m
function fig = fm_component(varargin)
% FM_COMPONENT create GUI for UDM browser
%
% FM_COMPONENT()
%
%Author: Federico Milano
%Date: 11-Nov-2002
%Update: 12-Feb-2003
%Update: 15-
www.eeworm.com/read/263516/11359408
m fm_snbfig.m
function fig = fm_snbfig(varargin)
% FM_SNBFIG create GUI for Saddle-Node Bifurcation Analysis
%
% HDL = FM_SNBFIG()
%
%see also FM_SNB
%
%Author: Federico Milano
%Date: 11-Nov-2002
%
www.eeworm.com/read/263516/11359416
m fm_choice.m
function fig = fm_choice(varargin)
% FM_CHOICE open dialog box and wait for input
%
% FM_CHOICE(TEXT)
% FM_CHOICE(TEXT,MODE)
% TEXT = text to be displayed
% MODE = message mode
%
www.eeworm.com/read/263516/11359497
m fm_simset.m
function fig = fm_simset(varargin)
% FM_SIMSET create GUI for Simulink model settings
%
% HDL = FM_SIMSET()
%
%Author: Federico Milano
%Date: 11-Nov-2002
%Version: 1.0.0
%
%E-mail:
www.eeworm.com/read/263516/11359601
m fm_plotfig.m
function fig = fm_plotfig()
% FM_PLOTFIG create GUI for plotting variables
%
% FM_PLOTFIG()
%
%Author: Federico Milano
%Date: 11-Nov-2002
%Update: 27-Feb-2003
%Update: 11-Sep-200
www.eeworm.com/read/408547/11383140
m mycabout.m
screen=get(0,'screensize');
winw=screen(3);winh=screen(4);
%此面板的名字为windabout_ss,
%定义标题,并设置面板大小,标题及面板颜色
windabout_ss=figure('color',[0.1,0.1,0.1],'position',[0.275*winw,0.325*winh,0.45*winw,0.35*wi
www.eeworm.com/read/262714/11392884
m cal_rms.m
% to calculate normalized root mean square value
function rms = cal_rms(a,b,N)
kk = max(size(a));
sum = 0;
for i=1:kk
if(b(i) ~= 0)
sum = ((a(i)-b(i))/b(i))^2 + sum;
end
www.eeworm.com/read/407415/11419829
m clust_normalize.m
function data=clust_normalize(data,method);
% method description
% 'var' Variance is normalized to one (linear operation).
% 'range' Values are normalized between [0,1] (linear
www.eeworm.com/read/405084/11471940
m single_canceler.m
function [resp] = single_canceler (fofr1)
eps = 0.00001;
fofr = 0:0.01:fofr1;
arg1 = pi .* fofr;
resp = 4.0 .*((sin(arg1)).^2);
max1 = max(resp);
resp = resp ./ max1;
subplot(2,1,1)
plot(fofr,
www.eeworm.com/read/405084/11471993
m fig7_10b.m
fofr=0:0.001:1;
f1=4.*fofr;
f2=5.*fofr;
arg1=pi.*f1;
arg2=pi.*f2;
resp1=abs(sin(arg1));
%resp1=resp11.*resp11;
%resp22=(sin(arg2).*sin(arg2));
resp2=abs(sin(arg2));
resp=resp1+resp2;
max1=ma