Fuzzy logic Approach to Image Fusion

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Ynne le 12 Déc 2012

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Commenté : Image Analyst le 18 Mar 2016

Hi,

I am trying to test fuzzy logic approach to fuse too images. Following is the source i'am using:

    function Y=fuse_fuzzy(M1,M2) 
%Y = fuse-fuzzy(M1, M2) image fusion with Fuzzy Logic method 
%  MI - input image #I 
%  M2 - input image #2 
% Y  -fused image 
% check inputs 
%Size of the two input images should be same 
[z1 s1 ]  = size(M1); 
[z2 s2] = size(M2); 
 if (zl ~=  z2)||( s1 ~=  s2) 
     error('lnput images are not of same size');
 end; 
%Color map 
M1=rgb2gray(M1);
m = gray(256); 
f=readfis('fuse.fis'); 
colormap(m); 
im=evalfis([M1(:) M2(:)],f);
% Converting the column into matrix 
k=l; 
for i=l:1:zl 
for j=1:1:s1 
img(j,i)=im(k); 
k=k+1; 
end;
end;
Y=img; 
%Computing entropy for input and fused images 
entropy(M1); 
entropy(M2); 
entropy(img) 
end

My problem is that i couldn't understand what 'fuse.fis' file is ? and how to create it if it not exists ?

Thanks a lot

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nana fadi le 18 Mar 2016

Modifié(e) : Image Analyst le 18 Mar 2016

Hi, in which version of matlab can i find the syntax: fuse_fuzzy(...) because my project M2 is on fusion of 2 descriptors for face recognition using fuzzy logic.

thanks

Image Analyst le 18 Mar 2016

nana, the code for fuse_fuzzy() is given right there in the question. It's code the poster wrote or got from somewhere. I don't believe it's Mathworks-written code.

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Answer 1

radhika le 4 Avr 2013

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Modifié(e) : Walter Roberson le 4 Avr 2013

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fuse.fis consists of input and output membership function

note: u can add fuzzy rules also

find the code below

[System]
Name='ssn1'
Type='sugeno'
Version=2.0
NumInputs=2
NumOutputs=1
NumRules=0
AndMethod='prod'
OrMethod='probor'
ImpMethod='prod'
AggMethod='sum'
DefuzzMethod='wtaver'
[Input1]
Name='ct'
Range=[0 255]
NumMFs=5
MF1='VL':'trimf',[-64 0 64]
MF2='L':'trimf',[0 64 128]
MF3='M':'trimf',[64 128 192]
MF4='H':'trimf',[128 192 256]
MF5='VH':'trimf',[192 256 320]
[Input2]
Name='mri'
Range=[0 255]
NumMFs=5
MF1='VL':'trimf',[-64 0 64]
MF2='L':'trimf',[0 64 128]
MF3='M':'trimf',[64 128 192]
MF4='H':'trimf',[128 192 256]
MF5='VH':'trimf',[192 256 320]
[Output1]
Name='fused'
Range=[0 255]
NumMFs=25
MF1='z1':'linear',[0 0 0]
MF2='z2':'linear',[0 0 31.875]
MF3='z3':'linear',[0 0 63.75]
MF4='z4':'linear',[0 0 95.625]
MF5='z5':'linear',[0 0 127.5]
MF6='z6':'linear',[0 0 159.375]
MF7='z7':'linear',[0 0 191.25]
MF8='z8':'linear',[0 0 223.125]
MF9='z9':'linear',[0 0 255]
MF10='z10':'linear',[0 0 0]
MF11='z11':'linear',[0 0 31.875]
MF12='z12':'linear',[0 0 63.75]
MF13='z13':'linear',[0 0 95.625]
MF14='z14':'linear',[0 0 127.5]
MF15='z15':'linear',[0 0 159.375]
MF16='z16':'linear',[0 0 191.25]
MF17='z17':'linear',[0 0 223.125]
MF18='z18':'linear',[0 0 255]
MF19='z19':'linear',[0 0 0]
MF20='z20':'linear',[0 0 31.875]
MF21='z21':'linear',[0 0 63.75]
MF22='z22':'linear',[0 0 95.625]
MF23='z23':'linear',[0 0 127.5]
MF24='z24':'linear',[0 0 159.375]
MF25='z25':'linear',[0 0 191.25]