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比较复杂 看不太懂劳驾高手帮忙注释一下 便于理解 说说思路 谢谢了
function fcmdemo(action)
%FCMDEMO Fuzzy c-means clustering demo (2-D).
% FCMDEMO displays a GUI window to let you try out various parameters
% in fuzzy c-means clustering for 2-D data. You can choose the data set
% and clustering number from the GUI buttons at right, and then click
% "Start" to start the fuzzy clustering process.
%
% Once the clustering is done, you can select one of the clusters by
% mouse and view the MF surface by clicking the "MF Plot" button.
% (Note that "MF Plot" is slow because MATLAB is using the command
% "griddata" to do interpolation among all data points.) To get a
% better viewing angle, click and drag inside the figure to rotate the
% MF surface.
%
% If you choose to use a customized data set, it must be 2-D data.
% Moreover, the data set is normalized to within the unit cube
% [0,1] X [0,1] before being clustered.
%
% File name: fcmdemo.m
%
% See also DISTFCM, INITFCM, IRISFCM, STEPFCM, FCM.
% J.-S. Roger Jang, 12-12-94.
% Copyright 1994-2004 The MathWorks, Inc.
% $Revision: 1.16.2.2 $ $Date: 2004/04/10 23:15:17 $
global FcmFigH FcmFigTitle FcmAxisH FcmCenter FcmU OldDataID
if nargin == 0,
action = 'initialize';
end
if strcmp(action, 'initialize'),
FcmFigTitle = '2-D Fuzzy C-Means Clustering';
FcmFigH = findobj(0, 'Name', FcmFigTitle);
if isempty(FcmFigH)
eval([mfilename, '(''set_gui'')']);
% ====== change to normalized units
set(findobj(FcmFigH,'Units','pixels'),'Units','normal');
% ====== make all UI interruptible
set(findobj(FcmFigH,'Interrupt','off'),'Interrupt','on');
else
% set(FcmFigH, 'color', get(FcmFigH, 'color'));
refresh(FcmFigH);
end
elseif strcmp(action, 'set_gui'), % set figure, axes and gui's
% ====== setting figure
FcmFigH = figure('Name', FcmFigTitle, 'NumberTitle', 'off','DockControls','off');
%% set(0, 'Currentobject', FcmFigH);
% set V4 default color
colordef(FcmFigH, 'black');
figPos = get(FcmFigH, 'position');
% ====== setting axes
border = 30;
axes_pos = [border border figPos(4)-2*border figPos(4)-2*border];
FcmAxisH = axes('unit', 'pix', 'pos', axes_pos, 'box', 'on');
%axis([-inf inf -inf inf]); % fit axis to data
axis([0 1 0 1]);
axis square;
set(FcmAxisH, 'xtick', [], 'ytick', []);
% ====== setting gui buttons
% ============ background gui frame
border = 10;
ui_usable_pos = [figPos(4) 0 figPos(3)-figPos(4) figPos(4)];
[frameH, tmp] = uiarray(ui_usable_pos, 1, 1, border, 0, 'text');
ui_frame_pos = [tmp(1)-border, tmp(2), tmp(3)+border, tmp(4)];
set(frameH, 'position', ui_frame_pos);
set(frameH, 'backgroundcolor', [0.5 0.5 0.5]);
tmp1 = str2mat('popup', 'popup', 'radio', 'push', 'push', 'push');
tmp2 = str2mat('text', 'text', 'text');
tmp3 = str2mat('push', 'push');
style = str2mat(tmp1, tmp2, tmp3);
[uiH, uiPos] = uiarray(ui_frame_pos, size(style,1), 1, 5, 5,style);
% ============ background gui frame
bgc = [0.5 0.5 0.5];
fgtc = [1 1 1];
% ============ data set
set(uiH(1), 'string', ...
'Data Set 1|Data Set 2|Data Set 3|Data Set 4|Data Set 5|Custom ...');
set(uiH(1), 'callback', ...
[mfilename, '(''get_data''); ', ...
mfilename, '(''init_U''); ', ...
mfilename, '(''label_data0''); ', ...
mfilename, '(''display_data'');']);
set(uiH(1), 'tag', 'data_set');
% ============ cluster number
set(uiH(2), 'string', '2 Clusters|3 Clusters|4 Clusters|5 Clusters|6 Clusters|7 Clusters|8 Clusters|9 Clusters|10 Clusters');
set(uiH(2), 'callback', [mfilename, '(''cluster_number'');']);
set(uiH(2), 'tag', 'cluster_number');
% ============ label cluster
set(uiH(3), 'string','Label Data', 'tag', 'label_data');
set(uiH(3), 'callback', [mfilename, '(''label_data'')']);
% ============ clear trajectory
set(uiH(4), 'string', 'Clear Traj.', 'tag', 'clear_traj');
set(uiH(4), 'callback', [mfilename, '(''clear_traj'')']);
% ============ clear center
set(uiH(5), 'string', 'MF Plot', 'tag', 'mf_plot');
set(uiH(5), 'callback', [mfilename, '(''mf_plot'')']);
% ============ start & stop
set(uiH(6), 'string','Start');
set(uiH(6), 'tag', 'start');
set(uiH(6), 'callback', [mfilename, '(''start_stop'')']);
% ============ exponential
delete(uiH(7));
tmpH = uiarray(uiPos(7,:), 1, 2, 0, 0, str2mat('text', 'edit'));
set(tmpH(1), 'string','Expo.:', 'back', bgc, 'fore', fgtc);
set(tmpH(2), 'background', fgtc, 'string', '2');
set(tmpH(2), 'tag', 'exponent');
set(tmpH(2), 'callback', [mfilename, '(''exponent'')']);
% ============ max iteration
delete(uiH(8));
tmpH = uiarray(uiPos(8,:), 1, 2, 0, 0, str2mat('text', 'edit'));
set(tmpH(1), 'string','Iterat.:', 'back', bgc, 'fore', fgtc);
set(tmpH(2), 'background', fgtc, 'string', '100');
set(tmpH(2), 'tag', 'max_iter');
% ============ epsilson
delete(uiH(9));
tmpH = uiarray(uiPos(9,:), 1, 2, 0, 0, str2mat('text', 'edit'));
set(tmpH(1), 'string','Improv.:', 'back', bgc, 'fore', fgtc);
set(tmpH(2), 'background', fgtc, 'string', '1e-5');
set(tmpH(2), 'tag', 'min_impro');
% ============ info
set(uiH(10), 'string','Help');
set(uiH(10), 'tag', 'info');
set(uiH(10), 'callback', [mfilename, '(''info'')']);
% ============ close
set(uiH(11), 'string','Close');
set(uiH(11), 'tag', 'close');
set(uiH(11), 'callback', [mfilename, '(''close'')']);
% setting initial values for GUI.
% ============ initial settings for data set
OldDataID = 2;
set(findobj(FcmFigH, 'tag', 'data_set'), 'value', OldDataID);
% ============ initial settings for cluster number
set(findobj(FcmFigH, 'tag', 'cluster_number'), 'value', 2);
% ============ initial settings for labeling data
label_data = 0;
set(findobj(FcmFigH, 'tag', 'label_data'), 'value', label_data);
% ============ initial settings for exponent
exponent = 2.0;
set(findobj(FcmFigH, 'tag', 'exponent'), 'string', num2str(exponent));
% ============ initial settings for max_iter
max_iter = 100;
set(findobj(FcmFigH, 'tag', 'max_iter'), 'string', num2str(max_iter));
% ============ initial settings for min_impro
min_impro = 1e-5;
set(findobj(FcmFigH, 'tag', 'min_impro'), 'string', num2str(min_impro));
% ============ GUI initial operations
eval([mfilename, '(''get_data'')']);
eval([mfilename, '(''init_U'')']);
eval([mfilename, '(''label_data0'')']);
eval([mfilename, '(''display_data'')']);
eval([mfilename, '(''set_mouse_action'')']);
% ============ set user data
set(FcmFigH, 'userdata', uiH);
elseif strcmp(action, 'start_stop'),
if ~isempty(findobj(FcmFigH, 'string', 'Start')),
eval([mfilename, '(''start_clustering'')']);
else % stop clustering
set(findobj(FcmFigH, 'tag', 'start'), 'string', 'Start');
end
elseif strcmp(action, 'start_clustering'),
% === set some buttons to be uninterruptible
% The following does not work
%set(findobj(FcmFigH, 'tag', 'data_set'), 'interrupt', 'no');
%set(findobj(FcmFigH, 'tag', 'cluster_number'), 'interrupt', 'no');
%set(findobj(FcmFigH, 'tag', 'clear_traj'), 'interrupt', 'no');
%set(findobj(FcmFigH, 'tag', 'mf_plot'), 'interrupt', 'no');
%set(findobj(FcmFigH, 'tag', 'exponent'), 'interrupt', 'no');
%set(findobj(FcmFigH, 'tag', 'max_iter'), 'interrupt', 'no');
%set(findobj(FcmFigH, 'tag', 'min_impro'), 'interrupt', 'no');
set(findobj(FcmFigH, 'tag', 'data_set'), 'enable', 'off');
set(findobj(FcmFigH, 'tag', 'cluster_number'), 'enable', 'off');
set(findobj(FcmFigH, 'tag', 'clear_traj'), 'enable', 'off');
set(findobj(FcmFigH, 'tag', 'mf_plot'), 'enable', 'off');
set(findobj(FcmFigH, 'tag', 'exponent'), 'enable', 'off');
set(findobj(FcmFigH, 'tag', 'max_iter'), 'enable', 'off');
set(findobj(FcmFigH, 'tag', 'min_impro'), 'enable', 'off');
set(findobj(FcmFigH, 'string', 'Expo.:'), 'enable', 'off');
set(findobj(FcmFigH, 'string', 'Iterat.:'), 'enable', 'off');
set(findobj(FcmFigH, 'string', 'Improv.:'), 'enable', 'off');
% === change label of start
set(findobj(FcmFigH, 'tag', 'start'), 'string', 'Stop');
% === delete selectH
delete(findobj(FcmFigH, 'tag', 'selectH'));
set(findobj(FcmFigH, 'tag', 'mf_plot'), 'userdata', []);
% === find some clustering parameters
expo = str2double(get(findobj(FcmFigH, 'tag', 'exponent'), 'string'));
cluster_n = get(findobj(FcmFigH, 'tag', 'cluster_number'), 'value')+1;
max_iter = str2double(get(findobj( ...
FcmFigH, 'tag', 'max_iter'), 'string'));
min_eps = str2double(get(findobj( ...
FcmFigH, 'tag', 'min_impro'), 'string'));
dataplotH = get(findobj(FcmFigH, 'tag', 'data_set'), 'userdata');
data = get(dataplotH, 'userdata');
data_n = size(data, 1);
% === initial partition
FcmU = initfcm(cluster_n, data_n);
% === find initial centers
[FcmU, FcmCenter] = stepfcm(data, FcmU, cluster_n, expo);
center_prev = FcmCenter;
U_prev = FcmU;
% === Graphic handles for traj and head
headH = line(ones(2,1)*FcmCenter(:,1)', ones(2,1)*FcmCenter(:,2)',...
'erase', 'none', 'LineStyle', 'none', 'Marker', '.', ...
'markersize', 30, 'tag', 'headH');
trajH = line(zeros(2,cluster_n), zeros(2,cluster_n), ...
'erase', 'none', 'linewidth', 3, ...
'tag', 'trajH');
% === array for objective function
err = zeros(max_iter, 1);
for i = 1:max_iter,
[FcmU, FcmCenter, err(i)] = stepfcm( ...
data, U_prev, cluster_n, expo);
fprintf('Iteration count = %d, obj. fcn = %f\n', i, err(i));
% === label each data if necessary
eval([mfilename, '(''label_data'')']);
% === check ternimation invoked from GUI
if findobj(FcmFigH, 'string', 'Start')
break;
end
tempusdt=get(findobj(FcmFigH, 'string', 'Close'), 'userdata');
if ~isempty(tempusdt)&(tempusdt == 1),
break;
end
% === check normal termination condition
if i > 1,
if abs(err(i) - err(i-1)) < min_eps, break; end,
end
% if max(max(U_prev - FcmU)) < min_eps, break; end,
% === refresh centers for animation
for j = 1:cluster_n,
set(headH(j), 'xdata', FcmCenter(j, 1), 'ydata', FcmCenter(j, 2));
set(trajH(j), 'xdata', [center_prev(j, 1) FcmCenter(j, 1)], ...
'ydata', [center_prev(j, 2) FcmCenter(j, 2)]);
end
drawnow;
center_prev = FcmCenter;
U_prev = FcmU;
end
% === change the button label
tempusdt=get(findobj(FcmFigH, 'string', 'Close'), 'userdata');
if ~isempty(tempusdt)&tempusdt== 1,
delete(FcmFigH);
else
% change to 'Start'
set(findobj(FcmFigH, 'tag', 'start'), 'string', 'Start');
% make everything interruptible
%set(findobj(FcmFigH,'Interrupt','no'),'Interrupt','yes');
set(findobj(FcmFigH,'enable','off'),'enable','on');
end
elseif strcmp(action, 'label_data0'), % initialize labelH
cluster_n = get(findobj(FcmFigH, 'tag', 'cluster_number'), 'value')+1;
dataplotH = get(findobj(FcmFigH, 'tag', 'data_set'), 'userdata');
data = get(dataplotH, 'userdata');
data_n = size(data, 1);
label_data = get(findobj(FcmFigH, 'tag', 'label_data'), 'value');
maxU = max(FcmU);
x=[];
y=[];
for i = 1:cluster_n,
index = find(FcmU(i, :) == maxU);
cluster = data(index', :);
if isempty(cluster), cluster = [nan nan]; end
x = fstrvcat(x, cluster(:, 1)');
y = fstrvcat(y, cluster(:, 2)');
end
x(find(x==0)) = nan*find(x==0); % get rid of padded zeros
y(find(y==0)) = nan*find(y==0); % get rid of padded zeros
labelH = line(x', y', 'LineStyle', 'none', 'Marker', 'o', 'visible', 'off');
set(labelH, 'erase', 'xor');
set(findobj(FcmFigH, 'tag', 'label_data'), 'userdata', labelH),
elseif strcmp(action, 'label_data'),
cluster_n = get(findobj(FcmFigH, 'tag', 'cluster_number'), 'value')+1;
dataplotH = get(findobj(FcmFigH, 'tag', 'data_set'), 'userdata');
data = get(dataplotH, 'userdata');
labelH = get(findobj(FcmFigH, 'tag', 'label_data'), 'userdata');
label_data = get(findobj(FcmFigH, 'tag', 'label_data'), 'value');
if label_data ~= 0,
set(dataplotH, 'visible', 'off');
maxU = max(FcmU);
for i = 1:cluster_n,
index = find(FcmU(i, :) == maxU);
cluster = data(index', :);
if isempty(cluster), cluster = [nan nan]; end
set(labelH(i), 'xdata', cluster(:, 1), ...
'ydata', cluster(:, 2));
end
set(labelH, 'visible', 'on');
else
set(dataplotH, 'visible', 'on');
set(labelH, 'visible', 'off');
end
elseif strcmp(action, 'get_data'),
getDataH = findobj(FcmFigH, 'tag', 'data_set');
dataID = get(getDataH, 'value');
no_change = 0;
if dataID == 1,
data_n = 400;
data = rand(data_n, 2);
% === cluster 1
dist1 = distfcm([0.2 0.2], data);
index1 = (dist1 < 0.15)';
% === cluster 2
dist2 = distfcm([0.7 0.7], data);
index2 = (dist2 < 0.25)';
% === cluster 3
index3 = data(:,1) - data(:, 2) - 0.1 < 0;
index4 = data(:,1) - data(:, 2) + 0.1 > 0;
index5 = data(:,1) + data(:, 2) - 0.4 > 0;
index6 = data(:,1) + data(:, 2) - 1.4 < 0;
% === final data
data(find((index1|index2|(index3&index4&index5&index6)) ...
== 0), :) = [];
elseif dataID == 2,
data_n = 100;
% === cluster 1
c1 = [0.6 0.2]; radius1 = 0.2;
data1 = randn(data_n, 2)/10 + ones(data_n, 1)*c1;
% === cluster 2
c2 = [0.2 0.6]; radius2 = 0.2;
data2 = randn(data_n, 2)/10 + ones(data_n, 1)*c2;
% === cluster 3
c3 = [0.8 0.8]; radius3 = 0.2;
data3 = randn(data_n, 2)/10 + ones(data_n, 1)*c3;
% === final data
data = [data1; data2; data3];
index = (min(data')>0) & (max(data')<1);
data(find(index == 0), :) = [];
elseif dataID == 3,
data_n = 100;
k = 10;
c1 = [0.125 0.25];
data1 = randn(data_n, 2)/k + ones(data_n, 1)*c1;
c2 = [0.625 0.25];
data2 = randn(data_n, 2)/k + ones(data_n, 1)*c2;
c3 = [0.375 0.75];
data3 = randn(data_n, 2)/k + ones(data_n, 1)*c3;
c4 = [0.875 0.75];
data4 = randn(data_n, 2)/k + ones(data_n, 1)*c4;
data = [data1; data2; data3; data4];
index = (min(data')>0) & (max(data')<1);
data(find(index == 0), :) = [];
elseif dataID == 4,
data_n = 100;
% === cluster 1
c1 = [0.2 0.2];
data1 = randn(data_n, 2)/15 + ones(data_n, 1)*c1;
% === cluster 2
c2 = [0.2 0.5];
data2 = randn(data_n, 2)/15 + ones(data_n, 1)*c2;
% === cluster 3
c2 = [0.2 0.8];
data3 = randn(data_n, 2)/15 + ones(data_n, 1)*c2;
% === cluster 4
c3 = [0.8 0.5];
data4 = randn(data_n, 2)/10 + ones(data_n, 1)*c3;
% === final data
data = [data1; data2; data3; data4];
index = (min(data')>0) & (max(data')<1);
data(find(index == 0), :) = [];
elseif dataID == 5,
data_n = 300;
data = rand(data_n, 2);
elseif dataID == 6, % Customized data set
data_file = uigetfile('*.dat');
if data_file == 0 | data_file == '', % cancelled
no_change = 1;
else % loading data
eval(['load ' data_file]);
tmp = find(data_file=='.');
if tmp == [], % data file has no extension.
eval(['data=' data_file ';']);
else
eval(['data=' data_file(1:tmp-1) ';']);
end
if size(data, 2) ~= 2,
fprintf('Given data is not 2-D!\n');
no_change = 1;
end
end
else
error('Selected data not found!');
end
if no_change,
set(getDataH, 'value', OldDataID);
else
% normalize data set
maxx = max(data(:,1)); minx = min(data(:,1));
data(:,1) = (data(:,1)-minx)/(maxx-minx);
maxy = max(data(:,2)); miny = min(data(:,2));
data(:,2) = (data(:,2)-miny)/(maxy-miny);
% process data
OldDataID = dataID;
delete(get(FcmAxisH, 'child'));
% set(FcmFigH, 'color', get(FcmFigH, 'color'));
refresh(FcmFigH);
dataplotH = line(data(:, 1), data(:, 2), 'color', 'g', ...
'LineStyle', 'none', 'Marker', 'o', 'visible', 'off', ...
'clipping', 'off');
set(dataplotH, 'userdata', data);
set(getDataH, 'userdata', dataplotH);
end
elseif strcmp(action, 'init_U'),
cluster_n = get(findobj(FcmFigH, 'tag', 'cluster_number'), ...
'value')+1;
dataplotH = get(findobj(FcmFigH, 'tag', 'data_set'), 'userdata');
data = get(dataplotH, 'userdata');
data_n = size(data, 1);
FcmU = initfcm(cluster_n, data_n);
elseif strcmp(action, 'display_data'),
label_data = get(findobj(FcmFigH, 'tag', 'label_data'), 'value');
dataplotH = get(findobj(FcmFigH, 'tag', 'data_set'), 'userdata');
labelH = get(findobj(FcmFigH, 'tag', 'label_data'), 'userdata');
if label_data == 0,
set(dataplotH, 'visible', 'on');
set(labelH, 'visible', 'off');
else
set(dataplotH, 'visible', 'off');
set(labelH, 'visible', 'on');
end
elseif strcmp(action, 'cluster_number'),
eval([mfilename, '(''init_U'')']);
delete(get(findobj(FcmFigH, 'tag', 'label_data'), 'userdata'));
delete(findobj(FcmFigH, 'tag', 'headH'));
delete(findobj(FcmFigH, 'tag', 'trajH'));
delete(findobj(FcmFigH, 'tag', 'selectH'));
FcmCenter = [];
set(findobj(FcmFigH, 'tag', 'mf_plot'), 'userdata', []);
eval([mfilename, '(''label_data0'')']);
eval([mfilename, '(''display_data'')']);
elseif strcmp(action, 'clear_traj'),
if ~isempty(findobj(FcmFigH, 'string', 'Start')),
% set(FcmFigH, 'color', get(FcmFigH, 'color'));
refresh(FcmFigH);
delete(findobj(FcmFigH, 'tag', 'trajH'));
end
elseif strcmp(action, 'clear_all'),
if ~isempty(findobj(FcmFigH, 'string', 'Start')),
% set(FcmFigH, 'color', get(FcmFigH, 'color'));
refresh(FcmFigH);
delete(findobj(FcmFigH, 'tag', 'headH'));
end
elseif strcmp(action, 'close'),
set(findobj(FcmFigH, 'string', 'Close'), 'userdata', 1);
if ~isempty(findobj(FcmFigH, 'string', 'Start')),
delete(FcmFigH);
end
elseif strcmp(action, 'mf_plot'),
old_pointer = get(FcmFigH, 'pointer');
set(FcmFigH, 'pointer', 'watch');
% looping till mouse action is done
which_cluster = get(findobj(FcmFigH, 'tag', 'mf_plot'), 'userdata');
if isempty(which_cluster),
fprintf('Use mouse to select a cluster first.\n');
else
title = ['MF Plot for Cluster ', int2str(which_cluster)];
MfFigH = findobj(0, 'Name', title);
if isempty(MfFigH), % create a new MF plot
dataplotH = get(findobj(FcmFigH, 'tag', 'data_set'), 'userdata');
data = get(dataplotH, 'userdata');
tmp = FcmU';
% use griddata to do surface plot
fprintf('Using "griddata" to plot MF surface ...\n');
[XI, YI] = meshgrid(0:0.1:1, 0:0.1:1);
ZI = griddata(data(:,1), data(:, 2), tmp(:, which_cluster), XI, YI);
% Create a new figure window
pos = get(0, 'defaultfigurepos');
pos(3) = pos(3)*0.75; pos(4) = pos(4)*0.75;
MfFigH = figure('Name', title, ...
'NumberTitle', 'off', 'position', pos, 'DockControls','off');
% V4 color default
colordef(MfFigH, 'black');
mesh(XI, YI, ZI);
xlabel('X'), ylabel('Y'), zlabel('MF');
axis([0 1 0 1 0 1]); set(gca, 'box', 'on');
rotate3d on;
set(MfFigH, 'HandleVisibility', 'callback');
end
set(0, 'Currentfigure', MfFigH);
end
set(FcmFigH, 'pointer', old_pointer);
elseif strcmp(action, 'set_mouse_action'),
% action when button is first pushed down
action1 = [mfilename '(''mouse_action1'')'];
% actions after the mouse is pushed down
action2 = ' ';
% action when button is released
action3 = ' ';
% temporary storage for the recall in the down_action
set(gca,'UserData',action2);
% set action when the mouse is pushed down
down_action=[ ...
'set(gcf,''WindowButtonMotionFcn'',get(gca,''UserData''));' ...
action1];
set(gcf,'WindowButtonDownFcn',down_action);
% set action when the mouse is released
up_action=[ ...
'set(gcf,''WindowButtonMotionFcn'','' '');', action3];
set(gcf,'WindowButtonUpFcn',up_action);
elseif strcmp(action, 'mouse_action1'),
curr_info = get(gca, 'CurrentPoint');
CurrPt = [curr_info(1, 1) curr_info(1,2)];
if ~isempty(FcmCenter),
[junk, which_cluster] = min(distfcm(CurrPt, FcmCenter));
set(findobj(gcf, 'tag', 'mf_plot'), 'userdata', which_cluster);
delete(findobj(gcf, 'tag', 'selectH'));
selectH = line(FcmCenter(which_cluster, 1), FcmCenter(which_cluster, 2), ...
'tag', 'selectH', 'LineStyle', 'none', 'Marker', 'o', 'markersize', 30);
end
elseif strcmp(action, 'exponent'),
expo = str2double(get(findobj(FcmFigH, 'tag', 'exponent'), 'string'));
if expo <= 1,
fprintf('The exponent for MF''s should be greater than 1!\n');
set(findobj(FcmFigH, 'tag', 'exponent'), 'string', num2str(1.01));
end
elseif strcmp(action, 'info'),
helpwin(mfilename);
% title = '2-D Fuzzy C-means Clustering';
% help_string = ...
% [' You are seeing fuzzy C-means clustering '
% ' when the data sets are 2-dimensional. You can '
% ' choose the data set and clustering number from '
% ' the GUI buttons at right, and then click '
% ' "Start" to start the fuzzy clustering process. '
% ' '
% ' Once the clustering is done, you can select '
% ' one of the clusters by mouse and view the MF '
% ' surface by clicking the "MF Plot" button. '
% ' '
% ' If you choose to use a customized data set, '
% ' it must be 2-D data. Moreover, the data set '
% ' is normalized to within the unit cube '
% ' [0,1] X [0,1] before being clustered. '
% ' '
% ' File name: fcmdemo.m '];
% fhelpfun(title, help_string);
else
fprintf('Given string is "%s".\n', action);
error('Unrecognized action string!');
end |
|
发表于 2007-6-1 02:51
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